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136 Trending Presentation Topics for Engineering Students

Being a student means giving your best, bringing the best, searching for something new, and presenting the same, especially if you are an engineering student.

For an engineering student, research and presentation become an integral part.

Finding the best topics to research and presenting the same can bring new opportunities for you.

Are you an Engineering student? Are you looking for awesome presentation ideas for your seminar?

We have researched and summarized the internet’s best and latest topics for you.

We have also explained each topic briefly. Here is the post of the interesting ideas for your topics :

Microelectronic Pills

Yes, pills aka (also known as ) medicines. Using a nano-tech baby again to make a pill that is ultra-small and covered with resistant polyether. It has a circuit design, battery, and much more. It is difficult to design and not reusable but has some fair advantages too like determining the pH value of blood, etc. Seems good .

Stepper Motor & its Application

Its applications are 3D printing, medical imaging, milling and many more. It’s just like another motor converting electrical power into mechanical power but what is the difference between this and a simple motor is it is brush-less. You can go on talking about its uses in industry.

Optical fiber communication

You know Jio is working on this. Tata companies already established one in foreign. You have learned its advantages but the only problem is that we have to change the existing systems and then implement this. So it will take little time but it is surely coming in the world in the future. So information can travel faster, you can watch your live streams in seconds. And will be cost-effective .

Learn more about Optical Fiber

Electronic Ballast

It’s is a device that basically limits the amount of electric current in the circuit. It does so by a series connection with a load. It’s simple but highly useful. It does this through the principle of electrical gas discharge. Okay, too much technicals. But it is a very good presentation and one of the good topics in general .

Storage area network

It is a data storage. Has a lot of modern uses. One such use is creating multiple data points and improving data security. It can be easily scaled and has centralized storage.

Traditional and 3D modeling

You make 3 models for documentation and displays. Used in films, computer graphics, gaming, interior design, and many more. And you know this is great technology to see. If you are interested in this topic, you can email any companies who do 3D modeling. And see it in real life. It’s truly an awesome experience to see what goes in the background.

Control of environment parameter in a greenhouse

Natural resources are depleting day by day. So this project deals with using the minimum amount of resources to yield maximum results. Research is done to improve efficiency. WE Truly need this as the population is increasing and crops are not yielding properly.

Cybersecurity

Securing your online presence. Everyone does not become ethical hackers and everyone does not become scammers. So with improvement in technology we need more and more security. This is a vast area to cover, so you can have many opportunities to get a good research and present well.

Communication Network Design

There are many types of Communication Network design- LAN, MAN, WAN, Wireless, Internet. So you can see that this is another broad area to cover. You cannot get to show practical demonstration except for algorithms and network diagrams. That is one disadvantage yet still this is one of the revolutionary inventions of this century .

Thermal & Infrared Imaging Technology

Its applications are in industries, surveillance, construction, and many more. It allows us to visualize the heat emitted. We can understand it’s very important in modern-day comparatively. It’s an interesting and really very good project to work on .

Artificial Eye

Yes, Doctors make an artificial eye to replace our damaged eyes. It’s really jaw-dropping. People can’t seem to find much difference between an artificial eye and a normal one.

Packet Switching chips

The art of sending information in form of packets. Packets are made of a header and a payload. Computer Nerds, you hearing me, right? You will like learning about this. Wait a minute, you may know about this. Even if you know or not, it’s a fascinating topic.

Aeronautical Communications

You guessed it right, aeronautical communication is all about sharing data between aircraft and control centers. This is a highly specialized division. Communications  such as aircraft-to-ground, aircraft-to-aircraft, and aircraft-to-satellite.

Performance Evaluation & EMI/EMC Testing of Energy Meter

Energy meters or basically the meter present down at your house (if you are living in an apartment) can be manipulated. You read that. Now we think I wish I knew this before. But it’s illegal. I guess…How? By Electromagnetic interference (EMI) and electromagnetic compatibility (EMC). So this topic is how to evaluate your current properly.

Space mouse

I suddenly remembered Jerry from Tom & Jerry. Sorry. Space mouse is even cooler. It’s like a joystick but to control your 3D models that are present in your virtual screen. I have never controlled a 3D model using a space mouse. But I sure want to see it.

Low energy efficiency wireless

It’s forming a network that is both cheap and efficient. What else we need. This is decent and I will not say very easy but it’s kinda simple. Simply Good. You will need to design a network for this .

Reactive Power Consumption in Transmission Line

Reactive power reduces effective power in the transmission line that comes to your home. But still, it is needed to move active power. So research is about how much reactive power does a transmission line consumes.

Big data visualization

You can visualize data in the form of charts, diagrams, and basically an image. That is exactly what this is all about. Google chart is the best example of Big Data Visualization. There are a plethora of new ways being invented to this .

Brain-Computer Interface

So we connect the brain with an external device . The idea is old yet we do not have a proper working prototype yet. We are still far in human testing. But we are just one the trigger away from improving the speed in this technology. It is by far the most futuristic thing up till now.

Google Home and Google On hub support Mesh Networking. To keep all the devices in connection at the server level. Mesh Radio is still not popular in our country but it is going to be in some years.

Fusion Technology

Nuclei are hit at each with high speed particle guns. Such that they fuse and release energy. Capturing, Controlling, Distributing that power is Nuclear Fusion technology.

Bi-CMOS technology

Bipolar-CMOS is a semiconductor technology for constructing analog and digital logic circuits from both CMOS and Bipolar semiconductor technologies.

Renewable Energy Source Biomass

Biomass is organic material made from plants and animals. Biomass is a renewable energy source because as we grow trees and crops, waste will always exist. Examples of biomass fuels are manure, crops, and some garbage.

Agent-oriented programming

In contrast to object-oriented programming, Agent-oriented programming focuses on the construction of software. There are many research papers going on in this field.

Tsunami warning system

A system developed that could predict the coming of the natural disaster. This is highly important as countless lives and property can be saved. Especially in the eastern part of the world where it’s very dangerous.

Developed by Google, needs no introduction. It revolutionized and gave a tough call to iOS. There are still many Android Developer jobs coming. Going for Android will make you understand your Android’s features more and more.

Smartphone technology

Android and Smartphones are like two sides of a coin. But still, they can be totally new things in smartphones like how your Smartphone is becoming thin day by day.

Touch screen technology

I still remember the old Blackberry and Nokia phone which we used to be amazed at. And suddenly in 2009, I saw my first Samsung smartphone. It was awesome as what caught most of our attention is the touch screen technology which and having no keyboard and stuff. New things to learn here.

CAN-based Higher Layer Protocols and Profiles

It’s the standardized Higher Layer protocol for a number of purposes. There are many research papers on this being made by students from different institutions. There is to lot to say about such protocols.

Feeder Protective Relay

It protects your power grid from faults to supply energy without breaking. Not true for all conditions. But it is still worth our attention looking into this knowledge.

3D image technique and multimedia applications

3D is going to play a vital role in our day-to-day life soon. It’s going to be a movie experience on another level. We may sometimes forget about its vast advantages such as in the fields of architecture, security, manufacturing,etc.

Compressed air Car- A car that can run not on any fuel, not on gasoline, but on air. Yes, AIR. Highly Pressurized air. It does not have a great design or even a normal design . Every now and then we have a new startup that comes and shows out their model. But we clearly see it’s in the phase of research.

Biometric technology

We have seen forensics use it, and we have also seen an average Joe use it sometimes for his company check-in. And pretty much your identification Aadhar card. Right? The main one. Using a Biological way to identify someone in a crowd. This is soon going to be implemented all around the world.

Electronic watchdog

Smart homes in many countries have successfully given a prototype and are being used. So that when an annoying friend comes home and waits for you, you will be informed about it even when you are outside. Sounds good to me. Well and to a lot of investors, as they keep pouring money into R&D (Research and Development) to continually add more features.

Night vision technology

Night vision goggles, which we have used only when we are playing smartphone games. Oh wait we don’t use it there too often. But you must know that almost any other CCTV security camera you bump into as night vision to track people. So it is useful for industries and in the security department.

Advanced technique for RTL

Register Transfer Level (RTL) debugging can help find errors but there was a need for the debugging to be automated when designs became complex. So there are techniques developed to do this very thing. Designs, Figures, Tables are some of the data you need to understand better.

Ultra-wideband technology

It’s a low-range radio technology. It’s like it’s still in the beta version. For any number of years, developers have tried again and again to develop such technology. We are getting closer and closer. Hope your presentation will be the icing on the cake.

Bio-magnetism

Like an animal magnetism. Magnetic Fields by organisms seems innovative but really weird. What could be the future of Bio- Magnetism, we don’t know. But scientists believe that such organisms can be the key for us to understand magnetic fields in a totally different way.

DC Arc Furnace

It’s really a cool project. You use electricity to heat up the arc. It is used in making steel. It has some issues though but it is a very famous project. You can add demonstrations and make the presentation classier.

Global positioning system and its application

You know about GPS and its applications. It looks simple to use but there is a great amount of engineering happening to bring such products. Engineers like you are mainly visionaries.

This is another important topic that is very rare. Few people use these topics. If you wanna be among the few.

Pill camera

Pill are medicines. And the camera is well a camera. So it looks like medicine you swallow into your body. It takes images of your internals -intestine, esophagus, etc. And is very safe.

Something can go wrong only for 1.4% of people. But it is effective and in use. A great yet microscopic presentation.

Animatronics

What is animatronics? Whenever you go to any children’s theme park or any theme park. You will mostly see a puppet-like dinosaur that moves and produces sounds. It is like an automated machine. Disneyland uses these things all the time. This is another new topic.

Built-In Breathing System-used in diving chambers and submarines. BIBS is how you efficiently built a system to breathe in emergency conditions. This is a project in which you will get to learn a lot of simple things in a new manner.

You find a problem and you fix it. You know that. What if you are not a big fan of debugging? But still there are new methods being developed.

You can compile all the new and latest methods. And you can present it. Probably solve a few and find a more efficient method in your presentation. You can give a try.

Turbo codes

You may have heard of it. It was published in the early 90s. They are a class of error-correcting codes. This is a project done by other students also. Not a special topic. But you can get content on the internet done by other people. You can get inspired and add your own version.

Bimolecular Computers

It combines three fields in it- computers, biology and of course engineering. It’s really new. And developers believe it has the potential to revolutionize technology. Many people are researching this very topic. You can find their papers online and derive inspiration.

PC interfaced voice recognition system

Now you don’t have to type your password. You have to speak it. And it will access your computer. Kinda like Shivaji The Boss’s Laptop. This is a pretty neat presentation idea. Many countries have such technology. It is not widely popular in our country yet.

Telephone conversation recorder

The title says it all. There is little content about building a circuit for such a task. While most projects are looking into the future. You may think that being in the smartphone age why should we think of the telephone. Well, it may look simple. Yet it was remarkable technology which we also use in our own smartphones.

Future Satellite Communication

This is BTech Seminar Topic which you may or may not have heard. This is pretty awesome in itself. Communicating via satellite. This technology is defining the way we communicate.

Most of us use the internet. But there is research going on that is absolutely mind-blowing.

Nano-technology

Well, we have talked about a lot of nanotechnologies here and there. So here you focus only on its technology rather than its uses. Making technology smaller is nice. But a lot of effort is needed. You may know about nanotechnology. But really how well do you know about your nanotechnology ?

How about doing some research on it. Who knows you will end up liking it. I highly recommend it.

 And you can also see the best tips for an ms PowerPoint presentation to present your topic. 8 Tips to make your Powerpoint Presentation look Professional

Future generation wireless network

You have used data and Wi-Fi. But what is the future of it? Many are trying to understand what the future generation will do. Well, we are talking a lot about the future. We have to. You can read about graphene to start.

Next-generation mobile computing

Mobile is a computer. It is getting advanced every day. So what does the future hold for smartphones? We don’t know yet. Super smartphones, maybe? Well, smartphones came because of android. Yeah android, the same android developed by engineers like you. Who knows, you will be inspired to get that next idea.

Smart antenna for mobile communication

This is another topic that seems old and it is indeed. Papers were written about it in the 90s. And such phones were tested in the market too. You may think what is the use of it now. Well, our defense uses it. Our Army uses it for communication.

Mobile train radio communication

When Radio was working in the old days we used to say over-over. It was one-line communication. Then we improved it to two-way line communication. This is exactly how we do that. Now we use similar technology in our smartphones.

Augmented reality

You know virtual reality(VR). It is looking at things in 3D view. Things that exist in the computer but we will be able to look as if it is lying in your room. Then what is Augmented Reality(AR) you may ask? AR is adding to VR. Now we can not only see it but touch it, feel it and smell it. Sounds amazing to me.

Matter & Energy

You know matter and energy are related to this equation. E = mC squared. This is how atom bombs were based on. Matter turning into energy. This is a century-old discovery yet still relevant in the modern world.

Interactive public display

Another important project topic. Many research papers have been published. When we go to malls, we see large TV-like screens which display ads or videos. It is present in New York’s Time Square. This is going to make our world look smarter.

The Vanadium Redox Flow Battery System

It is difficult to explain easily here. Yet it is truly a good idea. It was demonstrated in the 1980s. We use such a battery system in large power stations today.

Cellular digital packet Data

It is another old technology but its the research is pretty easily found online. Though its services were ended by the Government in 2004. Yet it had speed in data transmission compared to others. Their possible speed was 19.2 kbits/s.

Flexible A C Transmission

Flexible Alternating Current Transmission (or in short FACTS) refers to a system.  Basically, when the power comes from the power plant to your house, some power is lost. With FACTS, we have more control ability such that we reduce power wastage. And this system allows our current bill rate not to skyrocket.

Quality of electrical power.

We already spoke about FACTS in the above topic. This is about the quality of that power. To have a steady flow of power.  This will go in detail about the study of transmission. And how we need to efficiently use the power generated by the power plant.

Radial Feeder Protection

Basically it’s the same field of protecting power from getting lost. How does it do?When there is a fault like a short circuit we still get power. It is because of Radial Feeder Protection.

Smart dust core architecture.

The goal of smart dust in simple words is to minimize energy. It can get complicated and difficult to explain. Yet it’s circuit diagrams are awesome and its basic architecture is neat.

Traffic pulse technology

Using technology to control traffic more efficiently. This is a modern technology solution to modern traffic problems. Using sensors and proper algorithms is the one solution governments are working on.

Virtual Reality

This future is exciting, especially for streamers and gamers. Those who want to feel and not just see and hear. You must see the VR Headset now and understand it more. About its algorithm, design, function, and reviews. Combine VR with AR. It will take our experience into another dimension.

Blue eyes technology

Blues eyes technology is having computer sensors that read users. And personalize user-experience. Many apple devices are blue Eyes based.

Seminar on artificial passenger

Well many people die in car accidents even when a little drowsiness could cause many innocent lives. This technology is based on sensing the vehicle surrounding and vehicle condition such that it avoids accidents. It’s something everyone is working on.

Telecommunication Network

A telecommunications network is a collection of terminal nodes where links are connected to enable telecommunication between the terminals. It’s a pretty neat idea. There are many types of telecommunication networks.

Organic electronics

It deals with conductive polymers. And conductive molecules. It is more flexible and amorphous in nature than inorganic. Many projects have been made on this topic.

Application of Swarm Robots

Swarm Robots is having its application in medical, defense, etc. There are many uses for these tiny robots. This presentation idea is also used less. Nevertheless, it is still a wonderful tech that will define the very defense systems that are protecting our country.

Autonomic Computing

Autonomic Computing is exactly as it sounds. The Computers manage, allocate resources, and fix errors on its own hiding in the background. This is mostly needed in modern technology to make a more user-friendly experience. Users can be panicked with all the manual computing work. This Autonomic system comes to the rescue.

It’s a microchip inserted into our body. Developed in the early 80s. Used in the medical field. Has a great engineering background even at that time. It amazed a lot of people. you can present about its development and its pros & cons.

The making of quantum dots

What is a quantum dot? A quantum dot is a very small semiconductor that transports electrons. But your main focus is how to make these small semiconductors. You can research about it and find pretty good stuff about it.

74. Very-large-scale integration (VLSI)

Very-large-scale integration (VLSI) is the process of integrating, creating millions of transistors on a single microchip. VLSI technology came into the picture in the 1970s when advanced-level computer processor microchips were under development. It is helping corporations in reducing the circuit size, is cost-effective, and consumes lesser power. VLSI is a successor to large-scale integration (LSI), medium-scale integration (MSI), and small-scale integration (SSI) technology. 

DBMS – In today’s digital world, data means everything, and due to the evolution of Database management systems, organizations are gathering, processing, and leveraging more from their work because they can process and leverage tons of data on hand effectively and without much fuss. Its applications are being used across multiple fields, from credit card transaction records to railways system management, Military, Telecom, and Banking. 

CMOS stands for “Complementary Metal Oxide Semiconductor.” One of the most popular technologies in the computer chip design industry is broadly used to form ICs or integrated circuits.  It makes use of both P and N channel semiconductor devices. This is the dominant semiconductor technology for microprocessors, microcontroller chips, memories like RAM, ROM, EEPROM application-specific integrated circuits (ASICs).

Technology-Related Topics

• Share your thoughts on Artificial intelligence
• How VR(Virtual Reality) works?
• Can online identity be secured?
• What’s new with nanotechnology in the past five years?
• Solar energy: An option or Future?
• What is green technology?
• What’s the latest update about 5G technology?
• How to prevent online data theft and privacy threat?
• How to make learning apps, popular as social media apps?
• How to be safe from cyber-terrorism?
• Concept of genetic engineering
• How do driverless cars work?
• Waste management system in 2021.
• Some facts behind the great innovation of the world.
• New gadgets to expect from fast-growing technology
• Share best suggestions for parking problems. 
• What separates engineering from any other career field?

Environmental Topics

• What are you thinking of Biofuels?
• Overpopulations: What can we do about it?
• How to stop food wastages?
• Is pollution prevention possible?
• Sustainable agriculture 
• Causes and effects of air pollutions
• Causes and effects of soil pollutions
• Causes and effects of water pollutions
• Discuss climate change
• Global warming: Myth or Real?
• Deforestations: How to stop it?
• Impacts of Ozone layer hole
• Nuclear wastages
• Reasons behind Acid Rain
• Can we save our environment and nature?
• Alternatives to the Papers – A move to the environment and health.
• What makes the perfect urban design and structuring?

IT-related topics for presentation

• Cryptocurrency and Blockchain
• Iron Dome: How does it work?
• Advanced Home security solutions
• The potential threat of robots to humans.
• E-cigarettes
• Staying protected in the digital world
• Touchscreen technology is over, What’s next?
• How does GPS track you?
• Mobile: The biggest threat to your privacy
• IT laws and governance
• Facebook-Whatsapp: Data & Privacy Concerns
• Green computing
• Android vs iPhone
• Voice over Internet Protocol (VoIP)
• Online marketing: Pros and Cons
• How CyberTerrorism is becoming the new threat?
• What’s new in the tech industry?
• Social media privacy: Possibility and the challenges

Non-technical Presentation Topics for Engineering Students

• Engineering and management: The thin line within
• This world needs more engineers: How so? 
• How to be more productive and use your time right?
• Technology that we must need, but no one is talking about
• Engineers also have to know how to sell, but why?
• A world without engineers: Importance of the engineers
• Is artificial intelligence also a threat to the engineering field? 
• What are the other career options engineers have? 

So hope this will be helpful for your presentation.  This is a sub-article of the main one. You can check the primary article here:  200+ Trending Presentation Topics for Students

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Engineering is considered a complex field. Due to this reason, authorities plan presentations for the progressive learning of students. It is suggested to decide good presentation topics for engineering students. A pre-decided topic can help improve confidence and develop enriched understanding. Moreover, students can pre-practice and keep track of their presentation time and progress.

Presentations are a way to research and learn from a topic. Good topic, content, and delivery are essential to communicate ideas better. In this article, we will discuss paper presentation topics for engineering students . In addition to making a PPT presentation, we'll learn about an AI tool for this purpose.

In this article

• Keys for a Good Engineering Presentation
• Best 10 Topics for Engineering Students
• Presentory for Your Simple and Interesting Engineering Presentation

Part 1: Keys for a Good Engineering Presentation

For an impactful presentation, the right content and graphical displays are required. To prepare a top-notch presentation, one requires a lot of time and expertise. Along with the engineering topic for presentation, other factors contribute to its success. Some of the most prominent key factors for a good presentation are discussed below:

1. Try to Keep it Brief with Data

A common mistake to avoid while preparing a presentation slide is overfilling text. Engineers should keep presentation slides content informative yet brief. People get bored with complex wording and lengthy content. It is suggested to use eye-catching slides that include bullet points.

The addition of bullet points and readable fonts puts the audience at ease. Moreover, you must avoid slang, jargon, and complex terms that can confuse the audience. Another way to achieve the audience's interest is by inserting colorful illustrations in slides.

2. Know Your Audience and the Potential Questions

Before presenting, get to know about your potential audience and their expertise level. It will be helpful in a successful presentation. You can quote relevant examples by knowing the audience's knowledge level and interests. Moreover, it enables you to memorize relevant terminologies and expected questions.

This will enhance your credibility as a presenter and maintain the audience's attention. However, due to interest, your audience will listen to the presentation with attention. Knowing potential questions enables you to create backup slides and enhance confidence.

3. Choose an Interesting Template

Slides are short notes to keep the audience attentive toward the presented topic. A visually appealing slide template is essential to engage them in the presentation. For engineering students, use a template that contains attractive infographics for statistical data. Moreover, use a template that offers complete customization options according to your choices.

In addition, a relative appearance, trending graphics, and layouts make a template unique. Despite the attractive nature of the template, it should be easy to edit to save time.

4. Enhanced Visual Effects

Compelling visual aids grab the audience's attention in seconds. These include transitions and animation in most parts. Engineering students can add icons, symbols, diagrams, and equations. Format your presentation in readable fonts and color palettes. Plus, organize your content according to the topic hierarchy.

Visualize your data through video presentation or 3D animated models. For example, you can make a 3D model of a turbine gas engine for power generation. By visualizing that motor model, you can communicate ideas well.

5. Correct Body Language and Eye Contact

Non-verbal communication is another way to express ideas impactfully. It includes eye contact, hand movements, and facial expressions. Maintaining eye contact while presenting keeps your audience attentive to the concepts.

Keep yourself confident and relaxed through body posture to not forget any information. Lastly, take short pauses while presenting, and take your time while delivering content. Plus, only stare at someone briefly and try to move your face toward the entire audience.

6. Rehearse

Remember that famous quote, "Practice makes a man perfect.” Rehearsal enhances confidence and helps argument effectively. Engineering students are advised to rehearse in front of their friends and teammates. Try to get positive and constructive feedback for positive improvements.

Moreover, while rehearsing, keep track of time and practice managing topics accordingly. Afterward, practice tone of delivery and clear pronoun cation of technical terms . Furthermore, preview slides during rehearsal and clear technical glitches, if any.

Part 2: Best 10 Topics for Engineering Students

Research and presentation play an essential role in engineering students' curriculum. Students have to present in seminars, classrooms, exhibitions, and webinars. Selecting PPT topics for engineering students is a time-consuming concern. After in-depth research, we have summarized the top 10 topics for engineering students. Read below to explore paper presentation topics for engineering students:

1. Medical Uses of Nanotechnology 

Nanotechnology can revolutionize treatment, diagnosis, and imaging in the medical field. Nano-particles are engineered to inject drugs directly into the targeted human body. It can rectify risks and side effects. Moreover, nanotechnology enables drug screening, cancer treatment, and many more.

2. Turning Plastic Bags into High-Tech Materials

Environmental problems are dominating every region and becoming hazardous to all life forms. These issues can be addressed through mechanical engineering. The process involves meltdown, extrude, and transformation of plastic into other useful materials.

With chemical engineering, engineers can transform plastic bag particles into molecules. Moreover, you can utilize nanotechnology, polymerization, and molecular structure.

3. Money Pad Future Wallet

An advanced version of the digital wallet is the money pad future wallet. You can discuss biometric data security, hardware designs, contactless sharing, and recipient tracking. Future trends or advancements with machine learning and AI can be explored.

4. 6G Wireless Technology

In regards to cellular networks, 6G wireless technology can be discovered. This technology is yet under development. Engineers are trying to transfer data through waves in GHz and THz. With the support of AI, 6G can improve virtual communication and works up to the speed of 1 Terabit/second.

5. Night Vision Technology

Glasses of night vision technology use thermal imaging that captures infrared light. It enables you to see in dark areas. You can discuss the basic functions, engineering contributions, and night vision devices. Furthermore, future developments and ethical considerations can also be highlighted.

6. Air Pollution Monitor

Certain underdeveloped areas of the globe are facing serious health concerns. Poor air quality index is causing those issues. An air pollution monitor can detect chemical particles and gases. Developing a low-cost air pollution detector can contribute to sustainability.

7. ATM With an Eye

With facial recognition technology, ATMs can match customer's faces with available records. It enhances banks' security systems and minimizes risk caused by stolen ATM PINs. In your presentation, you can discuss future implications and development of this software.

8. Bluetooth-Based Smart Sensor Networks

Discuss how smart sensors input small devices to communicate in your presentation. Moreover, you can highlight its components and implications. Plus, advantages can be discussed that include agriculture and health fields.

9. Energy-Efficient Turbo Systems

Introduce energy-efficient turbo with machines and engines. You can focus on energy costs and resource utilization. In addition, its efficacy in vehicles and energy consumption can be discussed. Afterward, put real-life examples and challenges to turbo systems.

10.  Laser Communication Systems

Laser beams are used to transmit data and replace traditional methods. Define laser communication systems and explain how they operate. You can introduce its applications, like underwater and military communication. Conclude your presentation with the latest trends and challenges. 

Part 3: Presentory for Your Simple and Interesting Engineering Presentation

Along with the exciting topic, PowerPoint slides matter equally. To grab the audience's attention with impactful presentations, AI tools have proven effective. Wondershare Presentory is a solution for many engineering students. This tool can make PowerPoint presentations, record videos, and stream them online. It has built-in AI and editing features, including visual aids and stunning templates.

This AI operates on cloud tech that allows users the freedom to collaborate online. Apart from this, you can add, remove, or replace video backgrounds. Among those include a dressing room, conference room and cityscapes. Also, you can add stickers and text effects from resources.

Free Download Free Download Try It Online

Key Features

• Import From Multiple Sources: It lets you import any type of media, like images, PPTs, videos, or more. You can edit the already available simple PowerPoint presentation by importing it.
• Various Types of Font Resources: Along with other graphical features, it offers font styles. The users can have access to multi-lingual fonts. You can change the transparency or opacity of fonts as required.
• Beautification Effects: This tool can record or stream videos on popular platforms. It can change filters, add AR effects, and beautify your face. In presentation videos, your face will be clear and automatically enhanced.
• Background Remover: You don't have to rush about a messy background. It can change the background and focus on a portrait image of you. With its AI built-in, your background gets automatically subtracted. Afterward, you can pick any color of your choice as a background.
• Stream or Broadcast: This AI tool also allows you to record and present a video. You can stream online at Google Meets, Zoom, and many more. This makes conferences and live broadcasts easy for engineering students.
• DIY Teleprompter: Surprisingly, you can change the window size of your presentation screen. With this AI tool's teleprompter, you can write a script on screen as notes. Plus, you can adjust those notes' size, font, and color. You can scroll or play teleprompter notes without getting caught by camera.
• Noise Reduction: This AI tool can automatically reduce the background voices from videos. Whether you are recording or broadcasting online, it can assist in both. Its AI-supported technology detects, diminishes, and enhances original voice in high quality.
• Transition and Animation Effects: Lastly, it can add transition effects to your PowerPoint presentation. It contains a variety of transition resources that make slides attractive. Furthermore, you can add animation effects and set action to available elements.

As we have seen, selecting presentation topics for engineering students is essential. During the presentation, graphical communication of content is as important as physical or verbal. There are many AI tools for such purposes, but the one we suggest is Wondershare Presentory. With its AI integration, users can create presentations on complex topics like engineering. Moreover, this tool always has room for manual editing or customization.

You May Also Like

• 10 Useful PowerPoint Animation Tips in 2023
• Unveiling the Key Elements of a Dynamic and Impactful Presentation
• Compelling Presentations: The Essential 5 PPT Elements for Engagement

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Chapter 16: Technical Presentations

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One important, but often overlooked, skill in engineering is presenting. From talking with students, I have noticed that a lot of engineering students are intimidated by public speaking. In fact, I have almost a decade of experience lecturing, but I still am a little scared standing in front of a large classroom! It is OK to be a little nervous. I tell students being a little nervous means that you care, and caring is part of successful presentations. This chapter aims to reduce your presentation anxiety by teaching you the skills you need. The main key is to practice, know the format, and be prepared.

Learning Goals

In this chapter we will learn:

• Why it is important to practice and get comfortable presenting technical information.
• What your presentation should entail for the main type of engineering presentations.
• How to present technical information professionally and engagingly.
• What “audience” means and how to use what you know about your audience to your advantage.
• The art of PowerPoint and how to use the features in a non-distracting way.
• What should (and should not) be included in a technical presentation.

Why Learning How to Present Is Important

It is one thing to have a good idea, invent something cool, or develop new technology, but it is a whole other thing to successfully disseminate that information. A lot of people don’t realize that presenting is a skill and like all skills requires practice and study to perfect. It seems like it is easy to slap together a PowerPoint and talk about your project, but if you do not put the time and effort into the presentation to ensure that it impacts your audience, your work will be wasted.

Key Concept: You have to learn how to present in a compelling manner in order to get people to pay attention to your product/idea/report/etc.

For example, I have been an instructor and advisor for several senior design teams. I have seen team projects range from truly impressive to mediocre. I have also seen the impressive teams be dismissed at competitions and the mediocre teams win awards at competitions because of presentation skills alone. What I am trying to convey to you is that presenting can be the “make or break” for a project. No matter how good your project is if you can’t describe to people how good your idea is, no one will care. That being said, the moral of this story is not to do a mediocre project and coast on your presentation skills. Combining a good project with a good presentation should be your goal.

Finally, it should be noted, that engineers have to present a lot . In fact, engineers have to do presentations a lot more than you might think. You might have to present your design idea to your research and development team. You might have to present to the entire company describing how you optimized a system process for efficiency. You might have to present to shareholders the newest technologies your team is working on. You might have to present to future customers on how your technology can improve their productivity. The point is, that engineers are expected to be good presenters and historically, University education in engineering does not explicitly address this skill. Hopefully, this chapter and your subsequent education reverses this.

Presentation Anxiety

Before we jump into some examples and tips, I wanted to take a quick note on presentation anxiety. As I mentioned before, there is no getting around it, you will probably be a little nervous when you present. That is ok! Almost everyone feels a little nervous. However, there are tactics that you can use to reduce your anxiety when stepping up in front of an audience.

One of the biggest keys to reducing your anxiety is preparation . In fact, there is no such thing as “over preparing”. The more you prepare for your presentation the better you will feel because you will be more confident about what you are speaking on.

Here are three tips that should help when it comes to preparation and alleviating anxiety:

Anxiety Reduction Mechanism 1) Rehearse, Rehearse, Rehearse…

Although it might seem self-explanatory or obvious, rehearsing is the most important step in reducing presentation anxiety. In my experience, this is the step that most students spend the least amount of time on even though it is the most important.

Out of all of the time you budget to create your presentation, the majority of time needs to be spent rehearsing.

The more you rehearse, the smoother your delivery will become and the more confident you will feel. Rehearse in front of your roommates. Rehearse in front of your classmates. Rehearse in front of a mirror. Rehearse to your parents (this is a great idea as it will probably impress them about how far you have come in your education and maybe get a few more bucks thrown on your campus cash card!). Rehearse in front of your grandparents (I am sure grandma would love to hear from you anyway). I think you get the idea. Rehearsing is key and the more that you practice your presentation, the more comfortable you will feel. Rehearsing in front of people that aren’t familiar with the course is even better. It will generate questions and make sure that you are explaining things in an optimal manner.

What I suggest to students is, that they time each of the rehearsals of their presentation. The key is to continue to practice rehearsing and practicing until the group can finish the presentation without making any mistakes and when they can finish within +/- 5 seconds of the same time (if it is a 10-minute limit presentation, the team can finish each practice session in 9:50 seconds to 9:55 seconds every time). As you can imagine, this takes a ton of practice but does reflect the level of polish necessary to feel confident about your presentation.

Anxiety Reduction Mechanism 2) Anticipate questions.

The next key to preparation for your presentation is to anticipate the questions you think the audience will ask, and be prepared with answers to those questions. You can’t anticipate every single question that you may get asked, but you can probably think of a few avenues that your audience members’ minds might wander.

For example, let’s imagine that you are giving a presentation on the efficacy of a vaccine. Depending on your audience, you should be prepared to answer the following questions:

• What is a vaccine?
• Specifically, how do vaccines work?
• Do vaccines cause autism? (Spoiler: NO )
• What types of adverse reactions might there be to the vaccine?
• How long will it take to produce 100 million doses of the vaccine?
• Are there specific storage requirements for this vaccine?

Preparing detailed answers to these questions will strengthen your knowledge of your presentation topic and alleviate your anxiety. Since you anticipated the questions your audience will ask, you don’t have to worry as much about looking like a fool on stage. This is also where rehearsing in front of someone who is not familiar with the course or topic can be very beneficial since it will generate a lot of these types of questions that you may have not considered.

Anxiety Reduction Mechanism 3) No one in the audience cares about you.

Sometimes students interpret this incorrectly. I am not saying that no one cares about you. Lots of people do. Your professor does, you have friends in the class, etc. What I mean by this is that it is important to remember that when you give class presentations, often, your classmates and peers have to give presentations as well.

Think back to the last class you were in where you had to present. Think about sitting in your chair, while another team is presenting, waiting for your turn. Be honest. Were you even listening to them? Or were you anxiously awaiting your turn at the presentation? Well, the reality is, everyone else is only thinking about themselves and their presentation while you are presenting . When you make a tiny mistake, no one notices. The only thing they will notice is if you totally bomb the presentation (which you won’t because you rehearsed so much).

So as part of your preparation, relax . The selfish and narcissistic tendencies of your classmates ensure that they won’t be paying as much attention to you as you think they might. Hopefully, that relieves a little bit of the pressure.

Discussion 16.1: How do you feel about presentation anxiety?

What Your Presentation Should Entail

As an engineer, you will typically be presenting on projects you are proposing or presenting data from projects that you have already completed. All of the advice from this chapter (no such thing as over-preparing, etc) will be helpful in reducing stage anxiety but to make sure that your presentation is well received, you need to make sure that the presentation contains the appropriate material.

You will be expected to have the following sections: title, introduction, materials and methods, results, discussion, and conclusion. The following example presentation will highlight the most important and standard slides that your presentation should (probably) entail.

To describe each of the required sections (keep in mind that I am showing only one slide for each section but it is likely that you will need multiple slides) I included example slides from a presentation I gave at an American Society for Engineering Education conference in 2019 in which I won the “Best Presentation” award. Note, that the slides shown below are only a subset of the slides that I presented at the conference. For the full slide deck, you can click here.

Title Slide

The title slide is just a place to include the names of all the people that worked on the project and their affiliations. And the title. Duh.

• Keep it simple.

Introduction / Background Slide(s)

The purpose of the introduction slide is to outline your current understanding of the subject. You need to include specific examples of previous work/research.

• Clearly explain the importance of the current project and what the significance of the project will be.
• Justify the merit of your project by presenting significant information.
• End with a specific, clear, and explicit purpose for the project. Some of the projects that you complete during your undergraduate career will be chosen for you. It does not mean that the purpose of the project is “because the professor told me to do it”. Spend some time thinking about the project and what learning outcomes you are expected to gain from it.

Materials and Methods

The purpose of the materials and methods slide is to list the necessary steps for your audience to interpret the results.

• You should include: sample sizes, how the data will be processed, everything that was used in the project, and what statistical tests if any will be used.
• It should be clear how the materials and methods relate to the purpose of the project.
• The audience should feel that presenters fully understand the scope and details of the work (especially if it is a proposal).

The results slide is the place where you describe what you found from your project.

• Present the data from the project. What did you do? What did you find?
• Do not interpret your results yet! Just show what you gathered.
• Visual descriptions of your data are important. Be sure to include figures and tables as appropriate.

Although it might seem like your results are the most important slide, I would argue that it is actually your discussion slide. Whereas in your results section you simply tell your audience what you found, in your discussion section, you need to interpret the results for your audience.

• Interpret the data from the results section.
• Answer the “why” of the data.
• Draw conclusions about the project.
• List any limitations of the project.
• Discuss future work.

• Question Papers
• Scholarships

1000+ Electronics Engineering Presentation Topics

These are 1000+ Presentation Topics for Electronics Engineering Students, Researchers, Teachers, and other professionals. Here we have given the latest and best electronics engineering presentation topics which can be used for PowerPoint paper presentations, seminars, webinars, oral or PPT presentations and discussions.

List of presentation topics for electronics engineering

These are the latest Presentation Topics for Electronics Engineering students.

Table of Contents

3G vs WiFi Wireless Internet Access

4G Wireless technology

5G Wireless technology

64-Point FT Chip

Air Powered Car

All-Optical Transistor

An Optical Switch Based on a Single Nano-Diamond

Artificial retina using thin-film transistor technology

Automatic solar tracker

Bio Battery

Brushless DC motor

Bubble Power

Carbon Nanotubes

Cellular Radio

Concentrating collectors

Detection and Tracking Algorithms for IRST

Digital Imaging

Drawing and Writing in Liquid With Light

DSP based motor control

E-Paper Technology

Electronics advance moves closer to a world beyond silicon

Electrooculography

Embedded system in automobiles

Embedded System Security

Fractal Robots

High-Speed Packet Access (HSPA)

How Advanced Solar Cells Work?

Humanoid Robot

IBOC (In-band on-channel)

Impedance Glottography

Integrated Circuits: The Dominator of Electronics

Is the electronics sector still waiting for the economy to recover?

Kirlian photography

Matrix inversion generator architecture

Microelectronic Pill

MIMO Technology

Mobile Phone Cloning

Money Pad Future Wallet

Nano-Optics

Nanomachines

New Techniques Produce Cleanest Graphene

The new way to dissolve semiconductors

Next-Generation Semiconductors Synthesis

Observer-Based Sensorless Control

Paper battery

Plastic Photovoltaics

Plastic Semiconductors

Riding an electron wave into the future of microchip fabrication

Smart antennas

Synaptic transistor

The power of wireless devices

Turning Plastic Bags Into High-Tech Materials

Use of DNA to assemble a graphene transistor

Wireless Communication technologies

Witricity (WIRELESS ELECTRICITY)

Wi-Vi technology

World’s Smallest FM Radio Transmitter

More Electronics Engg. Topics (Alphabetical List)

Here is the list of thousands of presentation ideas for presentations for electronics and telecommunication engineering students.

21st Century Electronic Devices

3 Axis Digital Accelerometer

3- D IC’s

3-D Chip Stacking Technique

3D Internet

3D optical Data Storage Technology

3D Solar Cell Technology

3-Dimensional Printing

3G Vs. 4G mobile Networks

5G Wireless Systems

6.5 digit professional multimeters

A 64 Point Fourier Transform Chip

A Basic Touch-Sensor Screen System

AC Performance of Nanoelectronics

Accident identification with auto dialler

Acoustic to articulatory inversion

Active pixel sensor

Adaptive Active Phased Array Radars

Adaptive Blind Noise Suppression

Adaptive Cruise Control

Adaptive Missile Guidance Using GPS

Adaptive Multipath Detection

Adaptive Optics in Ground-Based Telescopes

Adhoc Networks

Advanced electronic war equipment

Advanced Mobile Presence Technology

Advanced Packet Classification Technique

Advanced Plastics

Advances in DCS Systems

Advances in motion-capture technology

Advances in Thin-Film Technology

Advertising display using LED & LCD

AFM ultrafast Imaging

Agricultural Plant watering systems

AI for Speech Recognition

Air pollution monitor

All-flash microcontrollers

Aluminum Electrolytic Capacitors

Amplifiers: single-and multi-stage

An Efficient Algorithm for iris pattern

Analog Circuits

Analogue CMOS

Analog Gyros

Analog-Digital Hybrid Modulation

Analog-Digital Hybrid Modulation for improved efficiency over Broadband Wireless Systems

Analysis of electromechanical systems employing microcomputers

Animatronics

ANN for misuse detection

Antenna Effect in VLSI Designs

Anthropomorphic Robot hand: Gifu Hand II

Antiroll suspension system

Aperture Synthesis (SAR and ISAR)

Application-Specific IC’s (ASICS)

Applications of dual-axis Accelerometers

Applications of Fuel cells

Architectural requirements for a DSP processer

Articulatory synthesis

Artificial Eye

Artificial immune system.

Artificial intelligence for speech recognition

Artificial Intelligence In Power Station

Artificial Intelligence Substation Control

Artificial Neural Network Systems

Artificial neural networks

Aspheric lenses

Astrophotography

Asymmetric digital subscriber line

Asynchronous Chips

Asynchronous Transfer Mode

ATM with an eye

Augmented Reality

Automated eye-pattern recognition systems

Automated Optical Inspection

Automated Remote Data Logger

Automatic Electric billing system

Automatic Number Plate Recognition

Automatic Railway Gate Controller

Automatic taxi trip sensing and indication system through GSM

Automatic Teller Machine

Automotive Infotainment

Autonomous Underwater Vehicle

Avalanche diode

Avalanche photo diode

Baseband processor for licence-free digital PMR radios

Bench top wind tunnels

Bio Telemetry

Bioinformatics

Biologically inspired robots

Bio-metrics

Bio-Molecular Computing

Bioreactors

BIT for Intelligent system design

Blu Ray Disc

Blue Gene Supercomputer

Blue tooth technology

Bluetooth based smart sensor networks

Bluetooth Network Security

Boiler Instrumentation and Controls

Border Security Using Wireless Integrated Network Sensors

Brain Chips

Brain finger printing

Brain-computer interface

Brake Assisting Systems

Broadband Wireless Systems

Broadcasting as a Communication Primitive in Intercommunication Networks

Brushless Motors

Buffer overflow attack: A potential problem and its Implications

Business Process Execution Language (BPEC)

Capacitive Sensors

Carbon Chips

Carbon Nanotube Flow Sensors

Carbon Nanotubes -Adaptations & Applications

Cargo storage in space

Case Modeling

Cauchy’s and Euler’s equations

CCD vs. CMOS – Image

CCD: Charge-coupled device

CDMA & CDMA 1x Ev-Do

Cellonics Technology

Cellular Communications

Cellular Digital Packet Data

Cellular geolocation

Cellular Neural Network

Cellular Positioning

Cellular Technologies and Security

Cellular through Remote Control Switch

Chameleon Chip

Chip Morphing

Chip stacking Technology

Cholestric Flexible Displays(Ch LCDs)

Class-D Amplifier

Clockless Chips

Clos Architecture in OPS

Code Division Duplexing

Code Division Multiple Access

Collision warning system

Common Address Redundancy Protocol

Communication Onboard High-Speed Public Transport Systems

Compact peripheral component interconnect (CPCI)

Computational Optical Sensing and Imaging

Computer Aided Field Of Vision

Computer memory based on the protein

Concentrating Collectors

Contactless energy transfer system

Content-based image and video retrieval

Continuous phase modulation

Control system compensators

Convergence of Microcontrollers And DSPs

Co-operative cache based data access in ad hoc networks

Cordless power controller

Core Connecting Rod Design

Cortex M3 Micro controllers

Cross-media content production

CRT Display

Cruise Control Devices

Crusoe Processor

Cryptology in communication systems

Crystaline Silicon Solar Cells

CT Scanning

CVT: Continuously variable transmission

Cyberterrorism

Data Compression Techniques

Data Loggers

DD Using Bio-robotics

Deep-Submicron Effects and Challenges

Delay Tolerant Networking

Dense wavelength division multiplexing

Design of 2-D Filters using a Parallel Processor Architecture

Development of transistors

Digit recognition using neural network

Digital Audio Broadcasting

Digital Audio’s Final Frontier-Class D Amplifier

Digital Cinema

Digital circuits

Digital filtering techniques-Aliasing

Digital HUBBUB

Digital Micro-mirror Device

Digital quartz MEMS for stabilisation and motion sensing

Digital Signal Processing

Digital steganography

Digital stopwatch

Digital Subscriber Line

Digital Visual Interface

Direct Current Machines

Direct Hydrocarbons for Fuel Cells

Direct to Home Television (DTH)

Discrete-time Fourier Transform

Display technology

Disposable Nano Pumps

Distributed COM

Distributed Integrated Circuits

Distrubuated control System

DLNA: Digital Living Network Alliance Technology

DLP: Digital Light Processing

DNA Based Computing

Driving Optical Network Evolution

DSP Enhanced FPGA

DSP Processor

DTCP: Digital Transmission Content Protection

DTL (Diode–transistor logic)

Dual Energy X-ray Absorpiomsetry

DV Libraries and the Internet

Dynamic virtual private network

Dynamic VPN

Earth Simulator

Earthing transformers For Power systems

EC2 Technology

ECC: Elliptical curve cryptography

ECL (Emitter-coupled logic)

EDGE: Enhanced Data for GSM Evolution

EDRAM: Embedded Dynamic random-access memory

E-Intelligence

Elecromagnetic Valves

Electrical Impedance Tomography Or EIT

Electricity from the sun’s energy – photo-voltaic cells

Electro Dynamic Tether

Electromagnetics

Electronic Cooling and Thermal Issues in Microelectronics

Electronic Data Interchange

Electronic Devices

Electronic exchange& optical fiber network

Electronic humidity sensor

Electronic paper

Electronic Road Pricing System~

Electronic voting machine

Electronics Meet Animal Brains

Electronmagnetic Bomb

Element Management System

Embedded System in Automobiles

Embedded systems

Embedded Systems and Information Appliances

Embedded Systems In Automobiles

Embedded Web Technology

Embryonic approach towards integrated circuits

Embryonics Approach towards Integrated Circuits

Emergency Control of Power systems

Energy efficient turbo systems

Enhanced Data rates for Global Evolution

Enhanced data rates for gsm evolution (edge).

Environmental Remediation Systems

EPG: Electronic Program(me) Guide

EUV Lithography

Evolution Of Embedded System

Extended Markup Language

Extreme ultraviolet lithography

Eye Gaze Human-Computer Interface

Eye gaze systems

Fabrication of Si solar cells for concentrator applications

Face Recognition Technology

Face recognition using artificial neural networks.

Face Recognition Using Neural Network

Fast convergemce algorithms for active noise control in vehicles

Fault Diagnosis Of Electronic System using AI

FDDI: Fiber Distributed Data Interface

FED: field emission display

Femtotechnology

FFT: Fast Fourier transform

Field Emission Display Screens

Field-effect transistors

Field-programmable gate array

FinFET Technology

Finger print based library management system

First order equation (linear and nonlinear)

FLASH PIC micro Micro controllers

Flexible CRT Displays

Flexible Power Gateways

Flip Chip Technology

Floating gate Transistor

Fluid Focus Lens (18)

Fluorescent Multi-layer Disc

Flyash Utilisation

Fly-By-Wire technologies

Flying Robots

FM direction finder

FOC: Fibre Optic Communication

FPGA in Space

FPGA: Field Programmable Gate arrays Technology

Fractal Antennas

Fractal Image Compression

Fractal Robot

FRAM (Ferroelectric RAM)

Free space laser communication

Free Space Optics

Free-Core LVDT Position Sensors

Frequency Division Multiple Access

Fusion Memory

Fuzzy based Washing Machine

Fuzzy Logic

Gaic algorithm for iris comparison

Gas Transfer Systems

Gauss and Green’s theorems

General packet radio system

Genetic Programming

Glass computer memory for reduced cost of medical imaging

Global Positioning System

Global System for Mobiles

GNSS Augmentation Systems

Graphics processing unit

Grating Light Valve (GLV) Display Technology

Greenhouse Gas Control Technologies

GSM Based remote measurement of electricity and control system for home

GSM Security and Encryption

Guided Missiles

Hall Sensor Applications

Handheld Radiation detector

Harsh Environment LVDT Position Sensors

HART Communication

Harvesting Wave power

HBTs: Heterojunction Bipolar Transistors

Heliodisplay

HEMT Modeling and Fabrication

High Altitude Aeronautical Platforms

High Capacity Flash Chips

High-frequency RF design

High Performance Computing On Grid Databases

High Performance DSP Architectures

High Speed Packet Access HSPA

High-Speed Uplink Packet Access (HSUPA)(84)

High-speed USB chips

High-Temperature LVDT

High-availability power systems Redundancy options

Higher-order linear differential equations with constant coefficients

HIPPI (High-Performance Parallel Interface)

HMDI- New Digital Video Interface

Holographic Associative Memory

Holographic Data Storage

Holographic Memory

Holographic Versatile Disc (HVD)

Home Audio Video Interpretability (HAVi)

Home Networking

Homeplug – powerline communication

Hot Standby Routing Protocol (HSRP)

Hot Swapping

Humanoids Robotics

Human-Robot Interaction

Hydrogen Super Highway

Hydrophones

HY-Wire Cars

IBOC Technology

Illumination With Solid State Lighting (4)

Image Authentication Techniques

Image Coding Using Zero Tree Wavelet

Image compression

Image processing techniques in PCB inspection systems

Image Sensors

Imaging radar

Imbricate cryptology

Immersion Lithography

I-Mode (Information Mode)

Implementation of Zoom FFT in Ultrasonic Blood Flow Analysis

Improving Multi-Path Radio Reception

Indoor Geolocation

Infinite Dimensional Vector Space

IN-MOTION RADIOGRAPHY

Innovation at Bell Labs

Instruction detection system

Integer Fast Fourier Transform

Integrated Power Electronics Module

Integrated sensor systems, and radio-frequency systems

Integrated Vehicle Health Management Technology

Integrated Voice and Data

Intel express chipsets

Intelligent RAM (IRAM)

Intelligent Sensors

Intelligent transport

Intelligent Wireless Video Camera

Interactive Voice Response System

Interferometry

Intermediate band quantum dot solar cells

Internet Cryptography

Internet Protocol Television

Intervehicle Communication

Introduction to the Internet Protocols

Inverse Multiplexing over ATM

Ion Conductivity Of Solid Oxide Fuel Cell

Iontophoresis

IP Telephony

Ipv6 – The Next Generation Protocol

IR Tracking Robots

Iris Scanning

IRQ Numbers

ISO Loop magnetic couplers

Isolated PSE controller chipset

Jelly Filled Telephone Cables

Jet Stream windmill

Josephson junction

JTAG Boundary Scan

Junction transistors

Klystron tube

Landmine Detection Using Impulse Ground Penetrating Radar

Laplace transform

Laser communication systems

LCD screen harvests energy from indoor and outdoor light

LCOS Technology

LDMOS Technology

Led Wireless

Lenses of Liquid

Leo Satellite

LIDAR (LIght Detection And Ranging) for Automobile/ industrial/military applications

Light-emitting polymers

Lightning Protection Using LFAM

Linear lumped elements

Linear Time-Invariant (LTI)

Line-Reflect-Reflect Technique

Low Energy Efficient Wireless Communication Network Design

Low Memory Color Image Zero Tree Coding

Low Noise Amplifiers for Small & Large Photodiodes

Low Power UART Design for Serial Data Communication

Low Power Video Amplifiers

Low Power Wireless Sensor Network

Low Quiescent current regulators

Low Voltage Differential Signal

Low voltage differential signaling-Electronics

Low-density parity-check code

Lunar Reconnaissance Orbiter Miniature RF Technology Demonstration

LVDTs for proportional control valve applications

LVDTs for the Power Generation Industry

Magnetic Amplifiers

Magnetic Resonance Force Microscopy(MRFM)

Magnetic Resonance Imaging

Magnetoresistance on nanoscale

Maser Device

Mean value theorems

Media Oriented Systems Transport (MOST) Network

Membranes for Control and Energy Harvesting

MEMS CMOS processing

MEMS Microphone

Mesh Topology

Meso Technology

Metamorphic Robots

Microcontroller based Automatic Flush Control Systems

Microcontroller based security system using sonar

Micro-Display

Micro Electronic Pill

Micro Electronics

Micro Fluidic MEMS

Micro Mouse

Micro Robotics

Micro System Technology in Security Devices

Microbial Fuel Cells

Microcontroller based Auto-Dialer Home Security System

Microcontroller based sky car parking system

Microcontroller based talking key pad for blind people

Microcontroller based traffic density controller

Microcontroller based wireless energy meter

Microelectronic Pills

Micro-fabricated Bio-sensors

Micro fuel Cells

Micromechanical System For System-On-Chip Connectivity

Micro-mirror based projection displays

Microphotonics

Microvia Technology

Micro-wave Based Telecommunication

Microwave Superconductivity

MIFG(Multiple Input Floating Gate)

Migration to 4G: Advantages and Challenges

MiliPede Technology

Military Radars

MILSTD 1553B

Mixed-signal IC’s

MOBILE IPv6

Mobile Processor

Mobile Train Radio Communication

Mobile Virtual Reality Service

Modern Irrigation System Towards Fuzzy

Molecular Electronics

Molecular Fingerprinting

Molecular hinges

Molecular Surgery

Moletronics- an invisible technology

Molten oxide electrolysis

Money Pad, The Future Wallet

MOS (metal-oxide-semiconductor)

MOS capacitor

MOS field-effect transistors

MST in Telecommunication Networks

Multithreading microprocessors

Multichannel DC Convertors

Multimedia Messaging Service

Multiple description coding

Multiple integrals

Multisensor Fusion And Integration

Myword – ‘the text editor’

NAND Flash Memory

Nano Ring Memory

Nano-Communication

Nanocrystalline Thin-Film Si Solar Cells

Nanoimprint Lithography

Nanomanipulation

Nanopolymer Technology

Nanosensors from nature

Nanosized Resonator

Nanotechnological proposal of RBC

Nanotechnology

Nanotechnology Assembler Design

Nanotechnology for Future Electronics

Narrow Band & Broad Band ISDN

Navbelt and Guidicane

NCQ: Native Command Queuing

Near Field Communication

Neo -wafer 3d packaging.

Network Coding

Network on Chip

Neural Networks

Neuroprosthetics

New Applications For Carbon Nanotubes

New Generation Of Chips

New methods to power mobile phones

New Sensor Technology

New trends in Instrumentation

Next Generation Internet

Night Vision Technology

Non Visible Imaging

Nonlinear limits to the information capacity of optical fibre communications

NSAP: Network Service Access Point

Nuclear Batteries-Daintiest Dynamos

NVSRAM- Non-Volatile Static RAM

Object-Oriented Concepts

OCT: Optical Coherence Tomography

Optic Fibre Cable

Optical Burst Switching

Optical Camouflage

Optical Character Recognition

Optical Communications in Space

Optical Ethernet

Optical Integrated Circuits

Optical Mouse

Optical networking

Optical packet switch architectures

Optical Packet Switching Network

Optical Satellite Communication

Optical Switching

Optimization of the sorting architecture of rof

Organic Display

Organic Electronic Fibre

Organic LED

Organic Light Emitting Diode

Orthogonal Frequency Division Multiplexing

Ovonic Unified Memory

Oxygen User technology

PAC: Programmable Automation Controller

Packet Cable Network

Packet Switching chips

Palladium cryptography

Paper Battery

Passive InfraRed sensors (PIRs)

Passive Integration

Passive Millimeter-Wave

Passive Optical Sensors

PC – Based OSCILLOSCOPE

PCD: Protein-Coated Disc

Personal Area Network

Pervasive Computing

PH Control Technique using Fuzzy Logic

Photonic Chips

Photovoltaics

PID (Proportional-Integral-Derivative) control

Piezoelectric Actuators

p-I-n diode

Pivot Vector Space Approach in Audio-Video Mixing

Plasma antenna

Plasma Display

Plasma Television

Plastic circuitries

Plastic electronics

PMR ( Private Mobile Radio) Revolution

PolyBot – Modular, self-reconfigurable robots

Polycrystalline Si solar cells

Polymer memory

Polymer Memory

Polytronics

Porous Burner Technology

Portable X-ray Fluorescence Analyzer

Power Consumption Minimisation in Embedded Systems

Powerless Illumination

Power Line Networking

Power of Grid Computing

Power over Ethernet

Power System Contingencies

Power-supply ICs for slim LED-backlit TVs and PC main power systems

Precision IR thermometers

Printable RFID circuits

Printed Memory Technology

Printed organic Transistor

Project Oxygen

Proteomics Chips

Psychoacoustics

Push Technology

QoS in Cellular Networks Based on MPT

Quadrics network

Quantum Computers

Quantum cryptography

Quantum dot lasers

Quantum Dot Lasers

Quantum dots

Quantum Information Technology

Quantum Wires

QXGA – (Quad eXtended Graphics Array)

Radiation Hardened Chips (12)

Radio Astronomy

Radio Frequency Light Sources

Radio Network Controller

Real-Time Operating System (RTOS)-VxWorks

Real-Time Simulation Of Power Systems

Real-Time Speech Translation

Real Time System Interface

Real-Time Image Processing Applied To Traffic

Real-Time Obstacle Avoidance

Recent Advances in LED Technology

Remote Access Service

Remote Accessible Virtual Instrumentation Control Lab

Remote energy metering

Remote Monitoring And Thought Inference

Remotely Queried Embedded Microsensors

Residue theorem

Reversible Logic Circuits

RIFD: Radio Frequency Identification

Robot driven cars

Robotic balancing

Robotic Surgery

Role of Internet Technology in Future Mobile Data System

RPR: Resilient Packet Ring

RTOS – VxWorks(42)

Sampling theorems

Satellite Digital Radio(44)

Satellite Radio

Satellite Radio TV System

SCADA for power plant

SCADA system

Scalable Coherent Interconnect (SCI)

Screening for Toxic Nanoparticles

Search For Extraterrestrial Intelligence

Seasonal Influence on Safety of Substation Grounding

Secure Electronic Voting System Based on Image Steganography

Securing Underwater Wireless Communication Networks

Security In Embedded Systems

Self Healing Computers

Self Healing Spacecrafts

Self Phasing Antenna Array

Sensorless variable-speed controller for wind power generator(67)

Sensors on 3D Digitization

Sensotronic Brake Control

Serial Attached SCSI

Service Aware Intelligent GGSN

Short channel effects/ Latchup in CMOS

Signaling System

Significance of real-time transport Protocol in VOIP

Silicon on Plastic

Silicon Photonics

Silicon Technology

Silicon transistors

Silicon-carbide JFETs for high-end audio applications

Single Photon Emission Computed Tomography SPECT(59)

Slow Light For Optical Communications

Small Satellites

Smart Antenna

Smart Autoreeling mechanism

Smart Cameras in Embedded Systems

Smart Fabrics

Smart heat Technology in Soldering Stations

Smart Note Taker

Smart Pixel Arrays

Smart Quill

Smart rectifiers

Smartwire-DT communication system

SMF BAtteries

SMS based vehicle Ignition controlling system

SOFC, MCFC, Fuel cell performance models

Soft lithography

Software Radio

Software-Defined Radio

SOI Technology (Silicon On Insulation)

Solar Power Satellite

Solar-powered plane -Solar Impulse plane

Solid Electrolyte Dye-Sensitised Solar Cells

Solid-State Lighting

Solid-State RF Switches

Solid-state Viscosity

Souped-Up Mesh Networks

Sources of error in digital systems

Space Quantum Cryptology

Space Robotics

Space Shuttles and its Advancements

Speaking I-Pods

SPECT (Single-photon emission computed tomography)

Spectrum Pooling

Speech Compression – a novel method

Speech recognition: using dynamic time warping

Speed Detection of moving vehicle using speed cameras

Spin Valve Transistor

Spintronics

Spring-Loaded LVDT Position Sensors

STAP: Space-Time Adaptive Processing

Stealth Fighter

Stealth Radar

Steganography In Images

Stereoscopic Imaging

Storage Area Networks

Stream Processor

Super Capacitor

Superconductive Magnetic Energy Storage

Surface Mount Technology

Surface Plasmon Resonance

Surface-conduction Electron-emitter Display (SED)

Surge Protection In Modern Devices

Surround sound system

Swarm intelligence & traffic Safety

Synchronous Digital Hierarchy

Synchronous Optical Network

Synthetic Aperture Radar System

System on chip

Sziklai Pair (configuration of two bipolar transistors)

Tagged Command Queuing

Taylor’s and Laurent’ series

Tele-Graffiti

Tele-Medicine

Teleportation

Telestrator

Tempest and Echelon

Terahertz Transistor

Terahertz Waves And Applications

Terrestrial Trunked Radio

The Architecture of a Moletronics Computer

The Bionic Eye

The future of wireless network infrastructure

The InfraRed Traffic Logger

The making of quantum dots.

The mp3 standard.

The p-n junction

The speedes Qheap: a priority-queue data structure

The Synchronous optical network(SONET)

The Thought Translation Device (Ttd)

The TIGER SHARC Processor

The Ultra Battery

The Vanadium Redox Flow Battery System(35)

Theorems of integral calculus

Thermal Chips

Thermal infrared imaging technology

Thermography

Third Generation Solid State Drives

Three-dimensional integrated circuit.

Time Division Multiple Access

Time Reversal Terahertz imaging

Tiny Touch Screens

Token ring – IEEE 802.5

Tools and techniques for LTI control system analysis (root loci, Routh-Hurwitz criterion, Bode and

Nyquist plots)

Toroidal surface-mount power inductor for consumer electronics devices

Touch Screens

Tracking and positioning of mobiles in telecommunication

Transient Stability Assessment

Transistors and Moore’s law

Transparent Electronics

Transparent LCD displays

Treating Cardiac Disease With Catheter-Based Tissue Heating

Trends in appliance Motors

Trends in Mobiles & PC’s

Tri-Gate Transistor

Trisil – electronic component

TTL (Transistor–transistor logic)

Tunable lasers

Tunnel diode

Turbo codes

U3 Smart Technology

Ultra Conductors

Ultra-high frequency

Ultra Nano Crystalline Diamond

Ultra Small MCUs

Ultra Wide Band ( UWB)Sensors

Ultra-wideband technology

Ultra-Wideband

Ultrabright white SMD LEDs

Ultracapacitors

Ultrasonic Motor

Ultrasonic Trapping In Capillaries

Ultraviolet

Uniform linear array

Unijunction transistor

Unintentional radiator

Universal Asynchronous Receiver Transmitter

Unlicenced Moblie Access ( UMA) technology

USB Power Injector

User Identification Through Keystroke Biometrics

Utility Fog

UWB SENSORS: FOR EXCELLENT HOMELAND SECURITY

Vacuum Electronics For 21st Century(50)

Vacuum tube

Valence band

Vector field

Vehicle-to-Grid V2G

Vertical Cavity Surface Emission Lasers

VHSIC hardware description language

Vintage amateur radio

Virtual circuit

Virtual ground

Virtual Keyboards

Virtual Reality Visualisation

Virtual Retinal Display

Virtual retinal display (VRD) Technology

Virtual Router Redundancy Protocol (VRRP)

VIRTUAL SURGERY

Virtual worlds come to life

Visual Neuro Prosthetics

visual prosthetic

VLSI Computations

Voice morphing

Voice over internet protocol

Voice recognition based on artificial neural networks.

VT Architecture

VXI bus architecture

Wafer Level -Chip Size Packaging (WLCSP) Technology

Wardenclyffe Tower

Warner exemption

Wave impedance

Wave propagation

Waveguide antenna

Wavelength division multiplexing

Wavelength Division Multiplexing

Wavelet transforms

Wavelet Video Processing Technology

Wearable Biosensors

Wearable Technology innovations in Health care

Web-based home appliances controlling system

Web-based remote device monitoring

Web camera motion control

Welding Robots

Wheatstone bridge

Whip antenna

White facsimile transmission

White LED: The Future Lamp

WIDEBAND – OFDM

Wideband modem

Wideband Sigma Delta PLL Modulator

Williams tube

Wink pulsing

Wireless access point

Wireless Application Protocol

Wireless Charging Of Mobile Phones Using Microwaves

Wireless communication

Wireless community network

Wireless DSL

Wireless Fidelity

Wireless Integrated Network Sensors (WINS)

Wireless Intelligent Network

Wireless LAN Security

Wireless LED

Wireless Microserver

Wireless Mimo communication systems.

Wireless Networked Digital Devices

Wireless power transmission.

Wireless Video Service in CDMA Systems

Wisenet (Wireless Sensor Network)

Worldwide Interoperability for Microwave Access

XLR connector

Zener diode

Zero dBm transmission level point

Zero-dispersion wavelength

Zero-Energy Homes

ZIF (Zero insertion force)

Zigbee – zapping away wired worries(13)

Zigbee Networks(86)

Zipper noise elimination by the digital volume control

z-transform

This is all about Electronics engineering presentation topics for students, academicians and researchers.

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Top Paper Presentation Topics for Electronics Engineering Students

There are several students who often ask why paper presentation skills are required in the corporate world. The paper presentation topics are more valuable for the students to share their knowledge and improve their communication skills. These skills play a prominent role not only during their engineering course but also after the completion of their course, especially during their job search and career advancement. Therefore, in this competitive world – one of the important qualities to have, in business, or in any other field to move ahead swiftly – is the ability to present well. Many times, while selecting topics for paper presentation, many questions come to mind, particularly in the minds of engineering students about the selection of topics to be presented as papers . The dilemma about the topic selection gets aggravated further when a guide demands the selection of a new and latest topic or subject.

Therefore, for the engineering students, it would be better if they can select topics from the IEEE papers as they contain good reviews, topics, subjects, and matter. However, the topics given in this article are all latest, and therefore, many engineering students will find them worthy to consider for their paper presentation.

Paper Presentation Topics for Electronics Engineering Students

The list of Paper Presentation Topics for ECE students or PPTs for Electronics Engineering Students is discussed below. These unique topics for presentation are collected from different sources.

The set of LAN communication protocols which are created originally for Apple company computers is known as apple talk. A network of apple talk supports equal to 32 devices & the exchange of data can be done with 230.4 kbps/sec (kilobits per second). These devices are located at 1000 feet apart. The Datagram Delivery Protocol of apple talk communicates directly to the Network layer in the OSI (Open Systems Interconnection) communication model.

VNC – Virtual Network Computing

VNC or virtual network computing is a kind of remote access used in computer networks for sharing the remote desktop. This virtual network computing displays another computer’s desktop display & controls the computer through a network connection. VNC is the remote desktop technology used in home computer n/w’s to allow a computer from another house. It is also by the network administrators in different IT-based companies who need to troubleshoot the systems remotely.

Clockless Chips

Electronic chips like clock chips are used for timing signals without using the clock. These chips are used in asynchronous circuits. In these circuits, the parts are mostly independent, because they are not controlled by a clock circuit, however, waits for the signals to specify the completion of operations as well as for instructions. These signals can be indicated through easy protocols for transferring the data.

This design is compared with the synchronous circuit to operate based on the timing signals of the clock. At present, transistors in the circuit are used to process the data very fast that it uses a wire for carrying a signal from one face of the chip to another face. To keep the rhythm identical, the chip requires careful design.

So clock chip uses a method called as asynchronous logic that change from the design of conventional computer circuit to control the digital circuits independently by particular data parts to force all of the circuits on a chip to protest in unison. So it reduces all the drawbacks like less speed, high electromagnetic noise, usage of high power, etc. Furthermore, this technology is enhanced to drive the bulk of electronic chips in the upcoming years.

5g Wireless Technology

5G is the 5th generation wireless mobile network technology. After many mobile networks like 1G -first-generation, 2G-second generation, 3G-third generation, 4G-fourth generation, this 5G allows a new type of network. The main intention of this network is to unite almost everyone & everything as one like objects, devices, and machines.

This wireless technology delivers very little latency, enormous network capacity, high reliability, increased availability, and high multi Gbps with peak data speed. So, enhanced efficiency & high performance will empower the new user & connects with new industries.

Invisible Eye/Smart Eye Technology

The main goal of this system is to implement an advanced security system through a less complex as well as affordable is known as the smart eye or invisible eye. At present, property crimes are increasing more so developing an advanced security system is necessary. This security system is built with a camera to defend the valuables things which are kept within the room.

This security system is mainly used whenever slew in the region of the room & recorded once it is alerted by the existence of any interruption. This footage can only be observed by the Manager once it is alerted when an intrusion occurs.

This system uses less time in tracking the intruder very easily. Whenever the intruder was detected then it sends the information regarding the intrusion through the e-mail to the cop. This system includes three components like sensors to notice intrusion; the camera to slew the intrusion point & captures the pictures & finally the keypad that allows any individual to deactivate the security system by entering the correct password.

Aircraft Tracking through GPS

The tracking system using GPS is used for commercial as well as personal aircraft with several benefits like safety as well as convenience. There is a lot of difference in tracking the aircraft as compared with tracking a car. This tracking can help to find out the location within the sky & protects it while flying. In this aircraft, a GPS sensor is used to broadcast real-time positions of GPS in any plane in the direction of a server board that is arranged on the ground.

The arrangement of this sensor can be done in several areas otherwise on the plane based on the specific model, however, all the types of sensors function equally in tracking the exact position of the plane at any time. Air traffic controllers are arranged on the ground to pick up the positions to place all sizes of airplanes at all altitudes in any given area & time.

Artificial Intelligence in Power Station

Nowadays, a consistent, as well as continuous power supply, is required in the advanced and modern society. Globally, the enhancement in the energy sector is increasing day by day and also facing growing challenges like increasing demand, competence, varying supply & demand models & a lack of analytics required for optimal management. In this, the issues due to efficiency are mainly difficult, because of the occurrence of easy connections toward the power grid which means a huge amount of power is neither calculated nor payable, so it results in different losses & high CO2 emissions.

The power sector is used artificial intelligence (AI) & related technologies in developed states for communication among smart meters, smart grids & IoT devices. These technologies enhance the efficiency, power management & transparency to enhance the usage of renewable energy sources. Power systems are increasing on the base of geographical region, assets additions & electricity generation, transmission & distribution.

The techniques of artificial intelligence have become very famous for resolving different issues that occurred within power systems such as control, scheduling, planning, forecast, etc. So the methods deal with complicated tasks that are faced through applications within current huge power systems using more interconnections that are connected to meet enhancing load demand. In power system engineering, the utilization of these methods has been successful in several regions.

3D Internet

The 3D Internet is an influential new method for you to arrive at customers, industry customers, associates, company partners & scholars. It unites the closeness of TV, the flexible content of the network & the building relationship strengths for social media such as Facebook. The 3D Internet is intrinsically interactive & engaging. Immersive 3D internet can be experienced by virtual worlds to replicate real life.

In practical, the people who stay online for a long time with a high range of attention for taking benefit of that interest, different businesses & companies have claimed in this quick-growing market like Microsoft, IBM, Cisco, and companies like Toyota, Calvin Klein, BMW, Coca Cola, Circuit City & Universities like Stanford, Harvard & Penn State.

Google Glass

The Google Glass is a prototype of smart glass with a transparent HUD (Heads-Up Display) used like goggles. It is the primary wearable eye display developed by a huge company like Google. The main function of this google glass product is to display the current information available to most Smartphone users & commands with the Internet through voice commands in normal language.

The main features of these glasses are virtual reality as well as augmented reality. These are wearable computers that work with the same Android software to activate Android-based devices like tablets & smartphones. At present, it is an innovative device which is very useful for the handicapped and disabled people also.

Electronic paper or E-paper is an innovative substance mainly used to build next-generation electronic displays. It is a handy and reusable storage device with a display that looks like paper however it can be frequently written 1,000s of times.

These displays are uses to display the information of battery power in different gadgets like pagers, hand-held computers, cell phones & watches.

This technology has been recognized & developed in five years, it is imagined electronic books to display amounts of information as simply as flipping a side & stable newspapers that update themselves every day through wireless broadcast.

A Fabric that has data processing capacity including sensors to detect very important signs of human & airborne chemicals. This kind of skin is used to cover the whole surface of a human body or a machine. Based on the skin electronics, it gives its carrier the capability to detect its surroundings through the proximity of skin, temperature, pressure, touch, chemical, or biological, otherwise other sensors.

Sensitive skin based devices will make possible by using invalid machines which are operated in shapeless, changeable surroundings between people, numerous obstacles, outdoors on a jammed street, underwater, otherwise on remote planets. Responsive skin will make equipment “careful” and therefore responsive to their surroundings.

Cell Broadcasting

In mobile technology, Cell Broadcasting is one kind of feature for messaging and it is part of the GSM standard. An alternate name for this is SMS-CB (Short Message Service – Cell Broadcast). The main intention of this design is to broadcast the messages simultaneously to several users in a particular region, whereas the SMS-PP (Short Message Service – Point to Point) is one kind of service similar to one-to-one & one-to-a-few service. So, CB is a geographically focused one-to-many messaging service. CB messaging service supports through UMTS.

This kind of technology allows a text to distribute to all the terminals of mobile which are connected to a set of cells, whereas SMS messages are sent point-to-point and CB messages are sent point-to-area which means that a single CB message can achieve a vast number of terminals immediately.

Portability of Cell Phone Number

Cell phone number portability provides a facility for mobile users to change his/her network service without altering their phone numbers. So, this supports the user to switch, enhances competition within the market & the user enjoys a good quality of service with good tariffs because operators are troubled with additional costs of applying MNP. This system observes the consequences of initiating MNP (mobile number portability).

Some more new paper presentation topics include the following.

• Spin Electronics Devices
• Artificial Hand Using Embedded System
• Applications of Nanotechnology in Electronics
• Advanced Wireless Communications
• Importance of Verichip in Electronics
• The Evolution and Improvement of the ARM Architecture
• Context Monitoring of a Patient Using Wireless Networks
• An Emerging Technology in Wireless Communications
• Fingerprint Identification and Its Advanced Applications
• Paper Presentation on 3D Integrated Circuits
• Third Generation (3G) Wireless Technology
• Holographic Data Storage Memory
• Concentrated Solar Power
• Haptic Technology
• Silicon Microphotonics in Basic Electronics
• IRIS Recognition as a Biometric Technique
• OFDM Basics for Wireless Communications
• A New Revolutionary System to Detect Human Beings Buried Under Earthquake Rubble.
• System on Chip Designing Challenges
• Channel Tracking for a Multi-Antenna System
• Organic Light-Emitting Diode (OLED)
• A Comparative Approach to Architecture and Technology in Optical Switches – An Overview
• Medical uses of Nanotechnology
• Nanotechnology for Electronics and Communication Engineering
• The Future’s Fastest Transcars
• Intellectual Camera Unit
• Using the Theory of Bio-Metrics
• Embedded NDE with Piezoelectric Wafer-Active Sensors Aerospace Application
• Digital Jewelry Made Possible Using Wireless Communication
• Wireless Communication IRIDIUM Satellite System (ISS)
• Wireless Optical Communication
• Artificial Vision towards Creating the Joys of Seeing For the Blind
• Smart Car Wheels
• Windows Based Embedded Systems
• Steganography
• Autonomous Cars
• Introduction to Surveillance Camera Control System
• Satellites for Amateur Radio
• Radio Frequency Identification
• Compressed Image Processing
• Worldwide Interoperability for Microwave Access (Wi-Max)
• Wireless Communication Zigbee
• Next-Generation Wireless Communication- Free Space Optics (FSO)
• Smart Card Security
• Cellular and Mobile Communication
• Smart Antenna Opens Lanes For Wireless Highway
• A Fully Adaptive Approach to Smart Antennas
• Brain Fingerprint Technology
• How do Biometric Systems work?
• The Bluetooth Technology
• BioChip Informatics Technology for Electronic and Communication Engineering
• Polymer Light-Emitting Diodes (PLED)
• Blu-Ray Disc VS. HD-DVD
• Ultra-Wideband Technology Creating a Wireless World
• Diamond – The Ultimate Semiconductor
• Parallel Logic Simulation of VLSI Systems
• Optical Computers: The Future of Technology
• Nano Wire Growth for Sensor Arrays
• Space Solar Power
• Pill Camera
• Biometric Voting System
• How does Night Vision work?
• Dvb-H Broadcast Mobile
• Concealed Weapon Detection Using Digital Image Processing
• Internet (Broadband) Over Electric Lines
• SOS Transmission
• Zigbee – A Wireless Mesh
• Wireless Capsule Endoscopy
• VLSI Logic Circuit Using Single Electron Transistor Set
• Sniffer for Mobile Phones
• Secure Symmetric Authentication For RFID Tags
• Wireless Battery Charger
• Strained Silicon
• Wireless Technologies, Wireless Fidelity (Wi-Fi) & World Wide Interoperability for Microwave Access (Wi-max)
• Power Minimization Strategy in MOS Transistors Using Quasi-Floating-Gate
• Plastic Solar Cells: Implementation of Nanorod and Screen Printing Technology
• Plasmonics: “Vision for the Future”
• Satellite-Based Tsunami and Earthquake Early Warning System
• Speech Signal Analysis and Speaker Recognition by Signal Processing

Don’t Miss: Best Electronics Projects for Engineering Students.

Thus, this is all about an overview of paper presentation topics for electronics engineering students. These are also known as PPTs for engineering students. These topics are collected from IEEE paper presentation topics which are very helpful to give the presentation for the technical students.

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110 Engineering Research Topics For Engineering Students!

Getting engineering topics for research or presentation is not an easy task. The reason is that the field of engineering is vast. Engineers seek to use scientific principles in the design and building of machines, structures, bridges, tunnels, etc.

Engineering as a discipline has a broad range of specialized fields such as chemical engineering, civil engineering, biomedical engineering, computer engineering, mechanical engineering, software engineering, and lots more! In all, engineering seeks to apply mathematics or science to solving problems.

110 Engineering Topic Ideas in Different Areas

Genetic engineering topics, mechanical engineering research topics, electrical engineering research topics, software engineering research topics, computer engineering research topics, biomedical engineering research topics, civil engineering topics, chemical engineering research topics, controversial engineering topics, aerospace engineering topics, industrial engineering topics, environmental engineering topics for research.

We understand how difficult and tiring it could be to get engineering research topics; hence this article contains a total of 110 interesting engineering topics covering all aspects of engineering. Ready to explore? Let’s begin right away!

Genetic engineering is the direct manipulation of the gene of an organism using biotechnology. Many controversies are surrounding this engineering field because of the fantastic potential feats it could achieve. Here are some genetic engineering topics that encompass essential areas of this field.

• Can the human personality be altered through genetic engineering?
• Genetic engineering: hope for children with intellectual disabilities?
• Genetic engineering: the problems and perspectives.
• Genetic engineering and the possibility of human cloning.
• Genetic Engineering
• The side effects of altering human personality
• Immortalizing humans through genetic engineering
• Addressing human deficiencies through genetic engineering

Mechanical engineering deals with the design and manufacture of physical or automated systems. These systems include power and energy systems, engines, compressors, kinematic chains, robotics, etc. Here are some impressive mechanical engineering topics that double as mechanical engineering thesis topics too.

• A study of the compressed air technology used in cars.
• The design of a motorized automatic wheelchair that can serve as a bed.
• The why and how of designing stronger and lighter automobiles.
• The design of an electronic-assisted hydraulic braking system.
• Basics of Electronics Engineering
• AC and DC motors and operations
• Design and implementation of wind energy
• Power lines and electricity distribution
• Electromagnetic field and its applications
• Generators and electric motors

Electrical engineering is a trendy and well-sought field that deals with the design and manufacture of different electrical and electronic systems. Electrical engineering encompasses power and electronics. The basic principle of digital technology and electricity are all given birth to in this field. From your lighting to computers and phones, everything runs based on electricity. Although finding topics in electrical engineering could be difficult, we have carefully selected four electrical engineering topics to give you a great head start in your research! or write research paper for me

• A study on how temperature affects photovoltaic energy conversion.
• The impact of solar charging stations on the power system.
• Direct current power transmission and multiphase power transmission
• Analysis of the power quality of the micro grid-connected power grid.
• Solar power and inverters
• Alternator and electric magnetic induction
• AC to DC converters
• Operational amplifiers and their circuits.

Software engineering deals with the application of engineering approaches systematically to develop software. This discipline overlaps with computer science and management science and is also a part of overall systems engineering. Here are some software engineering topics for your research!

• The borderline between hardware and software in cloud computing.
• Essential computer languages of the future.
• Latest tendencies in augmented reality and virtual reality.
• How algorithms improve test automation.
• Essentials for designing a functional software
• Software designing and cyber security
• 5 computer languages that will stand the test of time.
• Getting software design right
• Effects of malware on software operation.

Computer engineering integrates essential knowledge from the subfields of computer science, software engineering, and electronic engineering to develop computer hardware and software. Computer engineering applies various concepts to build complex structural models. Besides, we have completed researches in the information technology field and prepare great  it thesis topics for you. Here are some computer engineering topics to help you with your research.

• Biotechnology, medicine, and computer engineering.
• Programs for computer-aided design (cad) of drug models.
• More effective coding and information protection for multinational companies.
• Why we will need greater ram in modern-day computers.
• Analysis and computer-aided structure design
• Pre-stressed concrete structures and variations
• General computer analysis of structures
• Machine foundation and structural design
• Storage and industrial structures.

Biomedical engineering applies principles and design concepts from engineering to medicine and biology for diagnostic or therapeutic healthcare purposes. Here are some suggested biomedical engineering topics to carry out research on!

• A study on how robots are changing health care.
• Can human organs be replaced with implantable biomedical devices?
• The advancement of brain implants.
• The advancement of cell and tissue engineering for organ replacement.
• Is planting human organs in machines safe?
• Is it possible to plant biomedical devices insensitive to human organs?
• How can biomedicine enhance the functioning of the human brain?
• The pros and cons of organ replacement.

Civil engineering deals with the construction, design, and implementation of these designs into the physical space. It is also responsible for the preservation and maintenance of these constructions. Civil engineering spans projects like roads, buildings, bridges, airports, and sewage construction. Here are some civil engineering topics for your research!

• Designing buildings and structures that withstand the impact of seismic waves.
• Active noise control for buildings in very noisy places.
• The intricacies of designing a blast-resistant building.
• A compatible study of the effect of replacing cement with silica fume and fly ash.
• Comparative study on fiber-reinforced concrete and other methods of concrete reinforcement.
• Advanced construction techniques
• Concrete repair and Structural Strengthening
• Advanced earthquake resistant techniques
• Hazardous waste management
• Carbon fiber use in construction
• Structural dynamics and seismic site characterization
• Urban construction and design techniques

Chemical engineering transverses the operation and study of chemical compounds and their production. It also deals with the economic methods involved in converting raw chemicals to usable finished compounds. Chemical engineering applies subjects from various fields such as physics, chemistry, biology, and mathematics. It utilizes technology to carry out large-scale chemical processes. Here are some chemical engineering topics for you!

• Capable wastewater treatment processes and technology.
• Enhanced oil recovery with the aid of microorganisms.
• Designing nanoparticle drug delivery systems for cancer chemotherapy.
• Efficient extraction of hydrogen from the biomass.
• Separation processes and thermodynamics
• Heat, mass, and temperature
• Industrial chemistry
• Water splitting for hydrogen production
• Mining and minerals
• Hydrocarbon processes and compounds
• Microfluidics and Nanofluidics.

Not everyone agrees on the same thing. Here are some engineering ethics topics and controversial engineering topics you can explore.

• Are organic foods better than genetically modified foods?
• Should genetically modified foods be used to solve hunger crises?
• Self-driving cars: pros and cons.
• Is mechanical reproduction ethical?
• If robots and computers take over tasks, what will humans do?
• Are electric cars really worth it?
• Should human genetics be altered?
• Will artificial intelligence replace humans in reality?

Aerospace engineering deals with the design, formation, and maintenance of aircraft, spacecraft, etc. It studies flight safety, fuel consumption, etc. Here are some aerospace engineering topics for you.

• How the design of planes can help them weather the storms more efficiently.
• Current techniques on flight plan optimization.
• Methods of optimizing commercial aircraft trajectory
• Application of artificial intelligence to capacity-demand.
• Desalination of water
• Designing safe planes
• Mapping a new airline route
• Understanding the structural design of planes.

Petroleum engineering encompasses everything hydrocarbon. It is the engineering field related to the activities, methods, processes, and adoptions taken to manufacture hydrocarbons. Hydrocarbon examples include natural gas and crude oil which can be processed to more refined forms to give new petrochemical products.

• The effect of 3d printing on manufacturing processes.
• How to make designs that fit resources and budget constraints.
• The simulation and practice of emergency evacuation.
• Workers ergonomics in industrial design.
• Heat transfer process and material science
• Drilling engineering and well formation
• Material and energy flow computing
• Well log analysis and testing
• Natural gas research and industrial management

Manufacturing engineering is integral for the creation of materials and various tools. It has to do with the design, implementation, construction, and development of all the processes involved in product and material manufacture. Some useful production engineering topics are:

• Harnessing freshwater as a source of energy
• The design and development of carbon index measurement systems.
• Process improvement techniques for the identification and removal of waste in industries.
• An extensive study of biomedical waste management.
• Optimization of transportation cost in raw material management
• Improvement of facility layout using systematic planning
• Facilities planning and design
• Functional analysis and material modeling
• Product design and marketing
• Principles of metal formation and design.

So here we are! 110 engineering research paper topics in all major fields of engineering! Choose the ones you like best and feel free to contact our thesis writers for help. It’s time to save humanity!

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Ideas to fuel a sustainable built environment, effective presentations: 12 tips for engineers (don’t laugh).

Feb 27, 2013 5:00:00 AM

Common Communication Problems

All the 1-1/2 hour presentations I attended were in “PowerPoint” format…you know, click on the button, the slide changes, the presenter talks about the slide, he or she clicks again and…well, you get it. They all had solid technical content and a high level of applicability to my job. Four out of those five, however, had fair to poor presentations. The slides were either not engaging, way too busy (also known as chartjunk ), illegible (because the fonts were so small) or served simply as the presenter’s script. Couple that with a dimly lit room and inadequate ventilation (we WERE in a hotel, after all) and you can imagine what ensues.

Pervasive Communication Problem

I’ve had the same feeling every year I attended this particular conference over the last 5 years, and I can remember only a handful of effective presentations at national conferences over the years. Now I’m no presentation guru, but neither am I a sommelier — yet I know when a wine tastes good, and I know when a presentation misses the mark. If, as an industry, we are going to advance building performance, energy efficiency and sustainability, we need to communicate more effectively with each other — as well as non-technical audiences.

12 Presentation Tips for an Engineer from an Engineer

• DON’T - READ YOUR SLIDES! Oh, sorry, did I yell that? Well, I meant to. I read aloud to my 4 year old because he can’t do it himself yet; I can. Use your slides as talking points, perhaps to compare a few things with a graph, or to highlight the main points you want to cover.
• DO – Prepare notes from which to speak that only exist in your hand. This will let you look away from the slide and engage with your audience.
• DON’T – Put up a slide that’s simply a white background and black text. C’mon folks, Power Point has dozens of canned templates that, if nothing else, add a splash of color or some texture. Additional time = 2 minutes. If that’s a little too much to do, use some other font than Times New Roman and make the text a different color. Something…anything!
• DO – Use photos or sketches to describe your talking points. We all like picture books whether we want to admit it or not…same thing applies to presentations. Photos are great ‘cause they’re real. Every presentation I’ve attended that uses photos always seems to keep the audience’s attention.
• DO – Use graphs. All the folks at this conference have the technical aptitude to understand a graph. Graphs are a simple way to compare A to B to C and they can add a splash of color.
• DON’T – Use graphs that have so many data points and compare so many things that looking at them starts to make me say “whoa man, what’d they put in that lunch buffet?”.
• DO – Use graphs to illustrate a point by summarizing or showing an indicative section of the data. Keep the font legible and the number of data points to a minimum.
• DON’T – Show me a screenshot of the ENTIRE SPREADSHEET you used to perform a complicated analysis or to compare umpteen options and then start by saying “this isn’t meant to be legible”. No kidding?!
• DO – Show me a section of that spreadsheet and summarize the headings on the top and side. You’re giving me an idea of what you did, not presenting the detail of the findings.
• DON’T – Stand behind the table or podium if you can at all help it. I know, public speaking is not a strong point for many people and that’s perfectly acceptable. Just step around the physical barrier that is between you and your audience. I don’t expect you to be that person who walks around the room and gets to know half the audience, but removing the barrier is another step to keeping my attention.
• DO – Look the audience in the eye. If you can’t do this, which is understandable, look at their hair. I learned that somewhere and you know what, it works. You can do an entire presentation without making any eye contact and still convince the audience you were looking at them.
• DO – Practice your presentation and get your colleagues’ input ahead of time. We’re all busy, believe me I know. But I paid to attend this conference and I expect a little more than a presenter who stumbles though their presentation because they weren’t familiar with the content of the slides. Yes, that happened. He even said “sorry, I’m not totally familiar with this presentation.” Folks – he was the guy the program listed; it wasn’t a surprise to him he was presenting.

So that’s my 2 cents on what these presenters could have done better to engage me which, I assume, is what would engage you or most anyone else. What’s your favorite tip (or resource) for more effective presentations?

PowerPoint Does Rocket Science--and Better Techniques for Technical Reports (Edward Tufte)

Harvard Business Reveiw Guide to Persuasive Presentations - Nancy Duarte

Mastering Prezi for Business Presentations – Anderson-Williams Russell

Topics: Sustainability Workplace & People

Written by Matt Napolitan

Previous post, what is the cost of a damper actuator installed backwards, energy efficiency policy: a market-based program approach, sign up for updates.

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Technical Presentation

Structure diagram, criteria for success.

• The presentation starts with the motivating problem for the research and why it’s being presented.
• Every slide shows something relevant to the motivating problem.
• Every slide shows no more information than necessary to convey the message.
• Slide titles stand on their own; other text supports the visuals.
• The audience takes away the presenter’s desired message .

Identify Your Message and Purpose

Identify your message and goals as a presenter and use them to organize your presentation. Your message is what you wish to convey to the audience, and is your primary goal. Other goals could include eliciting feedback, receiving a job offer, etc. Use your goals to structure your presentation, making it easier for the audience to follow your logic and identify important points that support your goals.

For example, if your goal is to communicate a new scientific result, focus on the results and broader implications rather than your methodology. Specific methods should take a back seat (e.g. “I measured key material properties,” rather than “I found the thermal decomposition temperature and profile”). Spend more time focusing on what the result means, and how it can be used.

Alternatively, if your goal is to elicit feedback from colleagues on an experimental apparatus, focus more on the experimental methods. Compare the advantages and disadvantages to alternatives. Explain your assumptions, base models and why your proposed experimental design will give more useful results than other designs would.

In less formal settings such as lab meetings, you can explicitly tell your audience what you’re looking for (e.g., “I’d appreciate feedback on my experimental methods”).

Analyze Your Audience

Understanding your audience is of paramount importance for a successful presentation. Highlight how your goals overlap with what audience cares about, so they receive your message. A well-designed presentation will steer the audience’s attention such that you can lead them to the exact point that you want them to take away.

Different audiences have different goals for attending a presentation, and therefore pay attention to different things. For example, at the same talk, an engineer may be interested in using your result to solve their problem, a scientist in the broader scientific advance, a venture capitalist in its impact as a novel product, and clinician about how your device could improve their patients’ care. The introduction of your presentation should speak to the range of backgrounds and experiences in your audience.

That being said, often an audience consists of people with similar backgrounds and interests. Therefore, identify whether jargon is appropriate for an audience, and to what extent. Consider whether other methods, such as images or analogies, are more appropriate to convey concepts that would otherwise rely on jargon.

Plan Out the Presentation

Presentations are constrained by the fact that they progress linearly in time, unlike a written piece of communication, where the reader may jump forwards and backwards to get at the information they seek. Outline the content of the entire presentation first, then begin to design the slides, rather than jumping straight into them.

Lay out the order in which the content needs to be presented to achieve your goals, such that your message flows from point to point, topic to topic. This order may be very different from the structure of the journal paper you’ve already written.

Start by motivating your work with a problem that everyone cares about. Then develop your message step by step, from the background to the final message, so the logic flows clearly.

In many cases (depending on the audience), it might be most appropriate to reveal your conclusions up-front, so that the audience can tie everything else in the presentation back to supporting those conclusions. For instance, technology-focused program managers or engineering sponsors are likely most interested in your results, which will determine whether they are interested enough to pay attention to your process and justification. By contrast, certain scientific communities appreciate being taken through your scientific process to develop their own conclusions before you present yours.

Because the audience cannot immediately see a presentation’s structure like they can with a paper, it is often a good idea to provide a high-level roadmap of the presentation early on. At key points throughout the presentation, remind them of where they are on the roadmap.

Connect Your Work Back to the Broader Motivation

At the beginning of your talk, develop the broader context for your work and lay out the motivating questions you aim to answer. The audience should understand how your answers have an impact on the broader context, and why a solution was not immediately possible without your work.

At the next level down, when showing data and results, make sure it’s clear what they contribute to answering the motivating questions.

Anticipate Questions

If your audience is following along with your presentation, they’ll likely have questions about why you made certain decisions or didn’t make others. Sometimes, the questions could arise from what you’ve said and presented. Other times, they’ll arise from a listener’s knowledge of the field and the problem that you’re working on.

While you design your presentation, think about what kinds of questions may come up, and identify how you will address them. For less formal talks, you can anticipate interruptions to discuss these questions, whereas for more formal talks you should make sure that none of the questions are so big that they’ll preoccupy your listeners. For big questions, decide if you’ll explicitly address them in your talk. For smaller ones, consider adding back-up slides that address the issue.

Remember – while you know all of the information that is coming up in your talk, the audience probably does not. If they develop a question that doesn’t get addressed clearly, they could get distracted from the rest of the points you make.

You can use questions to create strong transitions: “seed” the listener’s thought process with the questions you’re about to answer in an upcoming slide. If a listener develops a question, and then you answer it immediately after, your message will stick much better!

Each Slide Should Convey a Single Point

Keep your message streamlined—make a single point per slide. This gives you control over the pace and logic of the talk and keeps everyone in the audience on the same page. Do not be afraid of white space—it focuses your audience’s attention.

The slide title should identify where you are on your roadmap and what topic the question the slide is answering. In other words, the audience should know exactly where in the presentation and what the slide answers just from the slide title.

Strong Titles Tell a Message

Strong titles highlight where on the roadmap you are, and hint at what question the slide is answering. Weak titles tend to be vague nouns that could be used across many slides or presentations. A rule of thumb is your title should be a clear, single-line phrase illustrating the importance of the slide.

Note that different mechanical engineering fields have different preferences for titles that are phrases versus full sentences. In general, design, system, or product-focused presentations tend to have short titles that only highlight what the speaker is saying, allowing audiences to focus more on the body of the slide, which is usually a figure. In other fields, a strong title might instead be a full sentence that states a message.

Emphasize Visuals

When a new slide is presented, most people will shift their attention from what you’re saying to the slide. People can often interpret figures and listen, but not read text and listen simultaneously. The more words on the slide, the less control you have over your audience’s attention. If you are reading words off the slide, you’ve lost the audience’s attention completely—they’ll just read the slide too.

Use brief statements and keywords to highlight and support the slide’s individual point. Slides are a visual medium, so use them for figures, equations, and as few words as possible to convey the meaning of the slide.

If you have a block of text on your slide, ask yourself what the takeaway message is, and what is the necessary supporting material (data, analysis). Then, identify how text can be reduced to still support your point clearly. Consider…

• Replacing text with figures, tables, or lists.
• Eliminating all but key words and phrases, and speaking the bulk of the text instead.
• Breaking up the slide into multiple slides with more visuals.

Replace blocks of text with easy-to-read pictures, tables or diagrams.

Left: The original slide provides specific information as text, but makes it easy for both speaker and audience to read directly off the slide, often leading to a distracted audience.

Right: The improved slide conveys the same information with a simple graphic and keywords, conveying the chronology more clearly, and allowing the reader to speak the same information without reading off the slide.

Simplify Figures

The purpose of a figure is to convey a message visually, whether it be supporting evidence or a main point. Your audience usually gives you the benefit of the doubt and assumes that whatever you show in the figure is important for them to understand. If you show too much detail, your audience will get distracted from the important point you want them to gather.

An effective presentation figure is often not one made for a paper. Unlike you scrutinizing your own data or reading an academic paper, your audience doesn’t have a long time to pore over the figure. To maximize its effectiveness, ask yourself what minimum things need to be shown for the figure to make its point. Remove anything that doesn’t illuminate the point to avoid distraction. Simplify data labels, and add emphasis to key parts using colors, arrows, or labels.

Additionally, presentations offer different opportunities than papers do for presenting data. You can use transitions on your slides to sequentially introduce new pieces of information to your slide, such as adding data to a plot, highlighting different parts of an experiment (or equation), or introducing text concepts as bullets.

Simplify data, simplify labels for emphasis.

Top: Academic referees and peers would prefer to see the complete theoretical model and experimental data (top), so they can interpret it for themselves. In addition, in papers, space is limited, while time to digest is not.

Bottom: But in a presentation, simplifying the data makes it easy to focus on the feature of interests for the presentation, or even at that moment (different regions may be highlighted from slide to slide). Slides provide plenty of space, while time is at a premium. [Adapted from Wind-Willassen et al., Phys. Fluids 25, 082002 (2013); doi:10.1063/1.4817612]

Introduce Your Data

Make sure your audience will be able to understand your data before you show it. They should know what the axes will be, what points in the plot generally represents, and what pattern or signal they’re looking for. If you’re showing a figure common to a specific audience, you may not need to explain as much. But if you show the data before the audience knows how to read it, they’ll stop listening to you, and instead scrutinize the figure, hoping that a knitted brow will help them understand.

If you are worried your audience won’t understand your data, one approach is to show sketches of what the data would should like if your hypothesis were true or false. Then show your real data.

For an audience unfamiliar with cyclic battery testing as a way to measure corrosion, first show a slide explaining how the electrical signal would appear without corrosion ( top ) before showing the slide with the actual data ( bottom ). Use parallel design across the explanation and data slides. This way, the audience is introduced to the logic of the experiments and how to draw conclusions from the data, making them more likely to follow and agree with the point made on the second slide. [Adapted from AAE2]

Be Critical of Visual and Textual Jargon

If there are discipline-accepted symbols, for example in fluid or electrical schematics, using them is an effective tool to simplify your visual for people in your field. However, if these may be unknown to a significant portion of your audience, be sure to add a descriptive keyword, label or legend.

Use simple, consistent visual design

A clean set of slides will minimize visual noise, focus the audience’s attention and improve the continuity between what you’re showing and telling. The graphical design is also important for setting the tone and professionalism of the presentation.

• Are colors related to each other? Do some carry intrinsic meaning (e.g. blue = cold, water, red = hot)?
• Are you using colors that are well-represented when projected?
• Are your color choices appropriate for colorblind members of the audience? Can you textures or line/point styles to differentiate data instead?
• Spread out elements on a slide to use space effectively—don’t be afraid of white space! By limiting the amount of information on a slide, you can control what your audience will focus on at each moment in time.
• Use your software’s alignment and centering features.
• When items are grouped as a list, make sure they actually belong under a helpful unifying theme.
• Make sure all text and figures are legible to the back of the room.

Resources and Annotated Examples

Annotated example 1.

This is a technical presentation given by MechE graduate students for a system design class. 13 MB

Annotated Example 2

This presentation was given by a MechE PhD student during interviews for postdoc positions. 1 MB

120 Presentation Topic Ideas Help You Hook Your Audience

Updated: January 15, 2024

Published: August 09, 2023

Cooking is easy. The puzzle is figuring out what to eat. As soon as you know that, you can get started. The same holds for presentations. The sooner you can whip up a good, informative, and catchy topic, the easier the rest of the process becomes.

Pick a good topic that resonates with you and your audience to set a strong foundation. But select the wrong topic, and it becomes difficult to connect with your audience, find mutual interests, or hold their attention.

So, let’s learn how to develop thought-provoking and relevant topics for your presentations. You’ll also find some best practices to make your presentation memorable.

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Table of Contents

How to Choose a Great Presentation Topic in 5 Steps

120 presentation topic ideas, 5 presentation tips.

4. Choose an appropriate presentation style.

There are many ways to present a topic. Your personality, the topic at hand, and your audience’s personas will help you determine which style would best fit you and your audience.

Select a presentation style that will communicate the main idea clearly and have a lasting impact on your audience.

For instance, explore a freeform style presenter by Sir Ken Robinson.

5. Engage with your audience.

Work on your presentation skills to make a strong connection with your audience, get through to them and leave a mark.

Think of the presenter as the link between the topic and the audience. A strong or a weak presenter can make a difference between a presentation being a thriving success or a boring failure.

Hone your skills by engaging and interacting with your audience. Make them feel like a part of the presentation and not just spectators. 70% of marketers have found presentations with interactive content to be more effective than those without.

Here are a few ways you can make your presentation interactive:

• Start your speech with uncommon questions to your audience. Involve them from the get-go, like ask to raise their hands if X.
• Make eye contact to build credibility and show confidence. Don’t stare at your slides or notes. Smile occasionally and talk to the audience directly.
• Have an active and confident body language. Don’t stand in the same place the entire time. Move around the stage.
• Don’t be monotonous. Speak as you would to a colleague — with enthusiasm.
• Ask close-ended questions in between to keep the audience engaged without losing time. Address them using their names to keep things interesting.
• Share personal experiences and stories that your audience will find fascinating and relatable.
• Practice thoroughly before you present so you’re fluent with the material and delivery.
• Energy and excitement can be quite contagious. Make sure you exude enough to spread some to your audience.

Feeling Inspired Yet?

Now you have all the right ingredients for choosing amazing topics and a hundred ideas to drive inspiration from. So, go ahead and start cooking presentations that will blow your audience away.

Don’t forget to choose a super-relevant topic and add meaty information. Do it with excitement to make it enjoyable for you and your audience. Best of luck!

Don't forget to share this post!

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10 Presentation Tips for Engineers to Succeed in Presenting their Projects

Engineers prepare presentations for various purposes on changing occasions, whether for an exhibition, internal meeting, or customers. Preparing an engaging and compelling slide deck is not child’s play. It demands expertise, sweat, and considerable time to prepare. That is why it is necessary to prepare captivating and persuasive PowerPoint presentations for your projects. In this article, you will learn about the mistakes that engineers usually commit while presenting, and some actionable tips to make your next presentation a complete success.

Repeated mistakes during presentations

While delivering short or long presentations, one of the common mistakes that engineers usually make is making the slides too text-heavy. Regardless of the technicality of the topic of the presentation, its slides must serve the purpose of visual aid only. It should facilitate the presenter in delivering his speech in a way that makes it easier for him to deliver his message to the desired audience. Otherwise, lengthy and text-heavy presentations will eventually lose the listeners’ interest and you will not achieve your purpose effectively.

Another mistake that is commonly seen in presentations is the usage of unprofessional and small fonts which makes it very hard to read for the audience. The absence of a storytelling approach is also a repeated mistake by engineers while delivering their offers, ideas, and thoughts on their desired topics. To avoid these mistakes and possibly more, look at the 10 below-mentioned presentation tips for engineers to succeed in their projects.

10 Actionable Presentation Tips for Engineers to Succeed in their Projects    

You can follow these 10 tips to succeed in your next PowerPoint Presentation related to any engineering project.

1. Make Slides that Contain Less Written Content

Try using visually appealing slides, with metaphors and graphics. Use text in simple bullet points and short lines only. As an engineer, you must have much to explain, but listeners usually get bored with the lengthy and complex text containing slides. Use simple and precise language while writing your text so that when a listener wishes to read the slide himself, he gets the point easily. 

2. Use Slides as a Visual Aid Only

Your slides work as kind of short notes that you keep with you to get along during your speech or presentation. Don’t start narrating each and everything that is written on a slide. This will make the audience think that you may not have a sound grasp of the discussed topic.

Instead of doing this, try explaining bullets from your slides. If a slide contains a statistical infographic about any operational data, try explaining that infographic in detail to the listeners in easy language. For example, if you need to present the project Strengths, Weaknesses, Threats and Opportunities of your engineering project, you can use a visual SWOT slide to show this information. This will make your authority on the stage strong and your audience will also remain engaged throughout your speech.

3. Use Slide Master to Define the Presentation Layout

In PowerPoint, the Slide Master tool allows you to define and use all general slide characteristics like color, slide layout, font size, name, date, logo, etc., simultaneously. One of the striking features of Slide Master is that you can incorporate universal changes into your existing and future slides by altering the features in the tool.

4. Leverage an Eye-Catching Template for Your Slides

Your slides’ background is not always meant to be white. You can alter the color, and texture of slides per your requirements. Do you want to dive into the ocean of thousands of professionally crafted premade templates? You can use an engineering PowerPoint template to build up your presentation from a ready-made design or download other project management templates and engineering projects.

5. Use the Right Fonts in your Slides

Try using a clear-looking font format like Sans Serif font, Segoe UI, Open Sans or Arial as compared to fonts like Times New Roman. If the size of the presentation room is too big, this means that the distance between the presenter and listeners will also be greater. That is why it is recommended to use font sizes up to 24 or even 32 points for better visibility and clarity, especially when presenting in an auditorium but also when presenting online (when sometimes participants log in from their mobile devices with smaller screen sizes). Pay heed to the contrast of the text color and background color of your PowerPoint presentation. For example, if the text color is purple and the slide’s background is black, it will be hard for the listeners to read the text from the slide.

6. Incorporate Infographics, Pictures, and Other Visual Elements into Slides

It is a known fact that pictures are more engaging than contextual content. Use pictures wherever necessary to illustrate your complex engineering arguments and solution.

If you are trying to show a trend or rate of one quantity compared to another, try using graphs and data visualizations. Graphs are an exceptional tool to facilitate the listeners to reach a quick conclusion. You can also use tables, charts, infographics, and video presentations depending on your needs and requirements. Animating 3D Models is also a great way to captive the audience attention. See, for example, the 3D motor model being rotated below>

7. Use Storytelling Approach

If you want your message to be properly delivered to an audience, you must resonate with your listeners’ minds. For this purpose, you need to engage your audience with a storytelling approach through which you can share your engineering arguments, ideas, and concepts through personal experiences and stories that are more relatable to the listeners. Stories create excitement, and suspense and ultimately develop an interest in the listeners. This simple technique can easily win a crowd and achieve your purpose.

8. Control your Body Language During Presentations 

Presentations are about more than just verbal communication. Here, non-verbal communication also matters a lot. Your body can also convey a strong message to the listeners if you know how to properly use your posture and gesture. Use facial expressions like smiling to engage your audience and make them comfortable with you. It would help if you stood upright while presenting as this shows you are confident. You do not need to be tense during your presentation otherwise you may start mumbling while speaking on the stage. Giving short pauses during your presentation is also a good thing; by doing this, you may give your audience some time to think about the ideas just discussed.

9. Maintain Eye Contact with Your Audience

Try maintaining eye contact while delivering your engineering presentation. It will help you engage and keep listeners attentive and responsive to your arguments, concepts, and ideas. Don’t stare at someone for too long as it can make him/her nervous. Look at a person for a while and then move your face toward another person. Start repeating this process on random listeners and try to cover the entire crowd. 

10. Rehearse your Presentation 

Practice makes a man perfect. Try making your engineering presentation a top-notch one by practicing it in front of a mirror, your friends, family members, and colleagues. This way, you will get valuable feedback about certain weak areas and loopholes in your presentation delivery method. With the passage of time, you will improve and be able to stand on the stage confidently, share your thoughts and arguments effectively and influence your listeners successfully.

Final Words

Engineers keep preparing presentations for clients, exhibitions, internal meetings, or other purposes regularly. Preparing effective and engaging presentations is a tough task, and one may need proper guidance regarding preparing and delivering persuasive engineering presentations. By avoiding the aforementioned mistakes while developing a presentation, an engineer can easily make his slides worth noticing. Moreover, tips like making your slides less context-heavy, using slides as a visual aid only, using slide master, and incorporating tempting Free PowerPoint Templates , including graphs, charts, infographics, and more, can also make an engineer achieve success in his/her project. Additional tips like incorporating storytelling approaches into slides, maintaining eye contact with the audience, controlling your body language, and rehearsing your presentation consistently can also help you outshine your competitors. 

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Latest Technical Paper Presentation Topics

• by Ravi Bandakkanavar
• April 14, 2024

This post contains a wide variety of technical papers chosen from various Engineering streams. The latest Technical Paper Presentation Topics include trending topics from emerging Technology like Artificial Intelligence, Machine Learning, 5G Technology, Cybersecurity, and Cloud Computing. It also includes topics from different Engineering streams like Computer Science and Engineering, Electronics Communications and Engineering, Electrical and Electronic Engineering, Mechanical Engineering, and Automobile Engineering. 

• Blockchain Technology
• Chat GPT and its capabilities
• How 5G Technology can Revolutionize the Industry?
• 5G Wireless Technology
• Impact of the Internet on Our Daily Life
• The technology  behind Face Unlocking in Smartphones
• 3D Printing Technology
• Anti-HIV using nanorobots
• Humanoid Robots
• Virtual Reality: working and examples
• Metaverse and how Apps are developed in Metaverse
• Smart Eye Technology
• Augmented Reality
• Automatic Video Surveillance Systems
• Automatic number plate recognition
• Cloud Computing vs. Distributed Computing
• Importance of Cloud Computing to Solve Analytical Workloads
• Attendance Monitoring Intelligent Classroom
• Automatic Mobile Recharger Station
• Automatic sound-based user grouping for real-time online forums
• Bio-computers/Biomolecular Computers
• What is Big Data?
• Biomedical instrumentation and signal analysis

• Artificial intelligence and the impact of AI on our lives
• Is Artificial Intelligence a Threat or a Benefit?
• Top 10 Ways Artificial Intelligence Future will Change the World
• Artificial Intelligence: Technology that Hosts Race between Enterprises
• The Role of Artificial Intelligence in the Healthcare Industry
• How AI Technology Can Help You Optimize Your Marketing
• Narrow AI vs General AI: Understanding The Key Differences
• Future Of Industrial Robotics With AI
• Causes of CyberCrime and Preventive Measures
• What is Phishing? How to tackle Phishing Attacks?
• What is the Dark Web? How to Protect yourself from the Dark Web?
• Cyberbullying: The emerging crime of 21 st Century
• Anatomy and working of search engines
• Bionic Eye – a possible path toward the Artificial retina
• Bluetooth-based Smart Sensor Networks
• Broadband access via satellite
• Brain-computer interface
• Blue eyes technology
• Brain-controlled car for the disabled using artificial intelligence
• Brain Port device
• Brain Finger Print Technology
• BrainGate Technology
• Digital jewelry
• Development of an Intelligent Fire Sprinkler System
• Capturing packets in secured networks
• Digital Speech Effects Synthesizer
• Aqua communication using a modem
• Serverless Edge Computing
• Intrusion detection system
• How to prepare for a Ransomware attack?
• What is the Dark Web? How to Protect Your Kids from the Dark Web?

Artificial Intelligence Topics for Presentation

• Carbon nanotubes
• Cloud computing
• Mobile Ad hoc Networks  (MANETs)
• Narrow AI vs General AI
• Security aspects in mobile ad hoc networks  (MANETs)
• Mobile Ad Hoc Network Routing Protocols and applications
• Graphical Password Authentication
• GSM-based Advanced Wireless Earthquake Alarm System for early warning
• Computerized Paper Evaluation using Neural Network
• Deploying a wireless sensor network on an active volcano
• Data Mining and Predictive Analytics
• Understanding Data Science and Data-Driven Businesses
• Dynamic Car Parking Negotiation and Guidance Using an Agent-based platform
• Real-Time Street Light Control Systems
• Data Security in Local Networks using Distributed Firewalls
• Design of a wireless sensor board for measuring air pollution
• Design of diamond-based Photonics devices
• Design of Low-Density Parity-Check Codes
• What is LiDAR Technology?
• Tizen Operating System – One OS for everything
• Authentication using Biometric Technology
• Speech Recognition
• The working of Self-Driving Vehicles
• Speech Processing
• Digit recognition using a neural network
• Digital Audio Effects Control by Accelerometry
• Digital Camera Calibration and Inversion for Stereo iCinema
• Dynamic resource allocation in Grid Computing
• Dynamic Virtual Private Network
• Earth Simulator – Fastest Supercomputer
• Electromagnetic Applications for Mobile and Satellite Communications
• Electronic nose & its application
• Elliptical Curve Cryptography (ECC)
• Cryptocurrency Wallet – is it the Future of Blockchain Technology
• Reactive Power Consumption in Transmission Line
• SPINS – Security Protocol For Sensor Network
• Smart Bandage Technology
• Embedded web server for remote access
• Encrypted Text chat Using Bluetooth
• Electronic toll collection
• Electronic waste (e-waste)
• Apache Hadoop Introduction
• Embedded web server for industrial automation
• Eyegaze system
• Fuel saver system
• Guarding distribution automation system against cyber attacks
• Face detection technology
• Falls detection using accelerometry and barometric pressure
• Fast Convergence algorithms for Active Noise Controlling Vehicles
• Fault-tolerant Routing in Mobile ad-hoc network
• Ferroelectric RAM
• Fingerprint recognition system by neural networks

Technical Paper Topics on CyberSecurity

• Flexible CRT Displays
• Fluorescent Multilayer Disc (FMD)
• Fluorescent Multilayer Optical Data Storage
• Forecasting Wind Power
• Fractal image compression
• Fractal robots
• Geometric Invariants in Biological Molecules
• Global positioning response system
• Broadband over power line
• Card-based security system
• Face Recognition Technology
• GSM Digital Security Systems for Printer
• Groupware Technology
• Indian Regional Navigation Satellite System
• GSM Security And Encryption
• Hardware implementation of background image modeling
• HAVI: Home Audio Video Interoperability
• Hawk Eye – A technology in sports
• High Altitude Aeronautical Platforms
• High-Performance Clusters
• High-Performance DSP Architectures
• High-speed circuits for optical interconnect
• High-speed LANs or the Internet
• Holographic Data Storage
• Holographic Memory
• Holographic Versatile Disc
• Holt-Winters technique for Financial Forecasting
• HomeRF and Bluetooth: A wireless data communications revolution
• How does the Internet work?
• Hyper Transport Technology
• How does a search engine work ?
• How does google search engine work ?
• Human-computer interaction & its future
• Design of a color Sensing System for Textile Industries
• GSM-based Path Planning for Blind Persons Using Ultrasonic
• Imbricate cryptography
• Implementation of hamming code
• Implementation of QUEUE
• Image transmission over WiMAX Systems
• Implantable on-chip Power Supplies
• Integrating Wind Power into the Electricity grid
• Integration of wind and solar energy in smart mini-grid
• Intelligent navigation system
• Intelligent Patient Monitoring System
• Intelligent RAM: IRAM
• Intelligent Software Agents
• Interactive Voice Response System
• Internet architecture and routing
• Internet Protocol duplicate address detection and adaptation
• Investigation of the real-time implementation of learning controllers
• IP spoofing
• IP redirector features
• iSCSI: The future of Network Storage
• ISO Loop magnetic couplers
• Jamming and anti-Jamming Techniques
• Light-emitting polymers
• Load balancing and Fault-tolerant servers
• Light Interception Image Analysis
• Lightning Protection Using LFAM
• Liquid Crystal on Silicon Display (LCOS)
• Location estimation and trajectory prediction for PCS networks
• Low-Power Microelectronics for Biomedical Implants
• Low-Power Oscillator for Implants
• Magnetic Random Access Memory
• Managing Data In Multimedia Conferencing
• Microchip production using extreme UV lithography
• Modeling of wind turbine system for an Interior Permanent magnet generator
• Moletronics – an invisible technology
• Power generation through Thermoelectric generators
• Multi-Protocol Label Switching
• Multiuser Scheduling for MIMO broadcasting
• Multisensor Fusion and Integration
• Parasitic computing
• Password paradigms
• Polymer memory – a new way of using plastic as secondary storage
• Programmable logic devices (PLD)
• Non-Volatile Static RAM
• Optical coherence tomography
• Open source technology
• Ovonic unified memory
• Personal satellite assistant systems
• PH control technique using fuzzy logic
• Pluggable Authentication Modules (PAM)
• Power Efficiency and Security in Smart Homes
• Proactive Anomaly Detection
• Prototype System Design for Telemedicine
• QoS in Cellular Networks Based on MPT
• Quad-Core Processors
• Real-Time Operating Systems on Embedded ICs
• Real-Time Speech Translation
• Real-Time Systems with Linux/RTAI
• Reliable and Fault-Tolerant Routing on Mobile Ad Hoc Network
• Robotic Surgery
• Vehicle monitoring and security system
• Space-time adaptive processing
• Radiofrequency identification (RFID) technology
• Rapid prototyping

Paper Presentation Topics for Computer Science Engineering

• Secured web portal for online shopping
• Securing underwater wireless communication networks
• Security analysis of the micropayment system
• Security requirements in wireless sensor networks
• Semantic web
• Sensitive skin
• Snake robot the future of agile motion
• Software-Defined Radio (SDR)
• Importance of Software-Defined Wide-Area Networks
• SPWM(sinusoidal pulse width modulation) technique for multilevel inverter
• Switchgrass
• Solar Powered Speakers
• Security on Wireless LAN Adaptive cruise control
• Session Initiation Protocol (SIP)
• Shallow water Acoustic Networks
• Significance of real-time transport Protocol in VOIP
• Simulating Quantum Cryptography
• Single photon emission computed tomography
• Smart cameras for traffic surveillance
• Smart Fabrics
• Space Mouse
• Space Robotics
• Speech Enhancement for Cochlear Implants
• Speed Detection of moving vehicles using speed cameras
• Swarm intelligence & traffic safety
• Synthetic Aperture Radar System
• Systems Control for Tactical Missile Guidance
• The Architecture of a Moletronics Computer
• The Evolution of Digital Marketing
• Thermal infrared imaging technology
• Thought Translation Device (TTD)
• Three-dimensional password for more secure authentication
• Ultrasonic motor
• Wearable biosensors
• Traffic Light Control System
• Wireless integrated network sensors
• Ultrasonic detector for monitoring partial discharge
• Ultra-Wideband Communication
• What is IPaaS? Trending IPaaS Services Available In the Market
• Wireless Computer Communications Using Sound Waves
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213 thoughts on “Latest Technical Paper Presentation Topics”

Hello sir! Hope you are doing well. I have a technical paper presentation this semester, so I would like some suggestions in the domain of HCI, AI- ML, and Data science. Thank you sir.

Hello sir! , Can you help me on what kind of application that are very useful in the present?

Are you looking for mobile applications or web applications? Automating the manual processes will add more value.

work automation (can be delivery, operations, movement, robotics, AI/ML etc) Traffic control systems Communication/Data transfer VR/AR

Hi sir! Can you help me what can feature can i add in Log In System for Covid 19 . Thankyousmuch sir❤️

If you are looking for a Covid application for the information purpose, it may include the following things: 1. Covid statistics (country/state/city/daily/weekly/monthly wise) 2. Individuals health history 3. Vaccination status 4. Hospitals and health centers information

You can add many more things like health hygiene shops, tourism etc.

need some technical topic related to ECE

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Course Spotlight: Electromechanical Design (ENG ME360)

Electromechanical Design (ENG ME360) is a core course for all BU undergraduate who is pursuing a Mechanical Engineering (MechE) degree. From designing to building, MechE juniors focus on the use of engineering principles, simulation, and physical models in product design. This course’s hands-on exercises allow students to propose solutions to practical problems and to develop their ideas through the construction and testing of physical prototypes. The hands-on exercise given this term was to build a machine from scratch with just the requirement to include 2.5 degrees of freedom. This project unlocks a world of possibilities and creativity for the students. From 3D printing parts to coding the program needed to run their machines, these students come together to build some pretty interesting machines.

Professor Enrique Gutierrez-Wing has been teaching this course for 14 years. When talking to hi m about ME360 and his experience teaching at BU , Professor Gutierrez-Wing noted,

I never get bored of teaching this class because all the projects are so diverse. This class is where students get to unleash their creativity. Because everything is made from scratch, they are all prepared for their senior capstone projects next year.”

When talking to students, their biggest challenge was getting consistent results, but with some perseverance and small adjustments they were able to succeed. From laser cutters to pancake makers, there are so many projects to see. Click below to check out some of this year’s projects!

Related posts:

• Design, Engineer, Iterate, Build: The Ian Schon (ENG’12) Story
• Endowment Funds Student Design Projects
• BME Senior Design Projects Conference – May 6
• U-Design Teaches Engineering to Middle-School Students

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DREAMS Week Spring 2024: Celebration of Undergraduate Research, Scholarly, and Creative Works

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Support Johns Hopkins undergraduates by visiting the weeklong DREAMS (Day of Undergraduate Research in Engineering, Arts, Medicine, and the Sciences) online, sponsored by the Hopkins Office for Undergraduate Research (HOUR) . This week, please take a few minutes to explore and support the research, scholarly, and creative endeavors of Johns Hopkins's dedicated and hard-working undergraduates. Visit online, ask questions, leave comments. Your engagement means so much.

DREAMS Week runs April 15 to April 19: Visit all the presentations online at your convenience or drop in to the live (virtual) presentations, every hour on the hour from 9 a.m. to 8 p.m.

Three reasons to visit DREAMS Spring 2024:

• Access is free, quick, and easy: One-click, super-quick, spam-free registration (required) allows you to view all presentations at any time, leave questions and comments, and attend live (virtual) presentations.
• Johns Hopkins's students and their mentors need you: Show your support of Johns Hopkins undergraduates by visiting DREAMS and engaging with at least one presenter or project of interest. Your questions and comments are key to students knowing that their work has been seen and appreciated.
• You will learn something: The range of projects on display are breathtaking in scope and the presentations are designed to be accessible from novice to expert.

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AI Prompt Engineering Isn’t the Future

• Oguz A. Acar

Asking the perfect question is less important than really understanding the problem you’re trying to solve.

Despite the buzz surrounding it, the prominence of prompt engineering may be fleeting. A more enduring and adaptable skill will keep enabling us to harness the potential of generative AI? It is called problem formulation — the ability to identify, analyze, and delineate problems.

Prompt engineering has taken the generative AI world by storm. The job, which entails optimizing textual input to effectively communicate with large language models, has been hailed by World Economic Forum as the number one “job of the future” while Open AI CEO Sam Altman characterized it as an “amazingly high-leveraged skill.” Social media brims with a new wave of influencers showcasing “magic prompts” and pledging amazing outcomes.

• Oguz A. Acar is a Chair in Marketing at King’s Business School, King’s College London.

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Fall 2024 CSCI Special Topics Courses

Cloud computing.

Meeting Time: 09:45 AM‑11:00 AM TTh  Instructor: Ali Anwar Course Description: Cloud computing serves many large-scale applications ranging from search engines like Google to social networking websites like Facebook to online stores like Amazon. More recently, cloud computing has emerged as an essential technology to enable emerging fields such as Artificial Intelligence (AI), the Internet of Things (IoT), and Machine Learning. The exponential growth of data availability and demands for security and speed has made the cloud computing paradigm necessary for reliable, financially economical, and scalable computation. The dynamicity and flexibility of Cloud computing have opened up many new forms of deploying applications on infrastructure that cloud service providers offer, such as renting of computation resources and serverless computing.    This course will cover the fundamentals of cloud services management and cloud software development, including but not limited to design patterns, application programming interfaces, and underlying middleware technologies. More specifically, we will cover the topics of cloud computing service models, data centers resource management, task scheduling, resource virtualization, SLAs, cloud security, software defined networks and storage, cloud storage, and programming models. We will also discuss data center design and management strategies, which enable the economic and technological benefits of cloud computing. Lastly, we will study cloud storage concepts like data distribution, durability, consistency, and redundancy. Registration Prerequisites: CS upper div, CompE upper div., EE upper div., EE grad, ITI upper div., Univ. honors student, or dept. permission; no cr for grads in CSci. Complete the following Google form to request a permission number from the instructor ( https://forms.gle/6BvbUwEkBK41tPJ17 ).

CSCI 5980/8980 

Machine learning for healthcare: concepts and applications.

Meeting Time: 11:15 AM‑12:30 PM TTh  Instructor: Yogatheesan Varatharajah Course Description: Machine Learning is transforming healthcare. This course will introduce students to a range of healthcare problems that can be tackled using machine learning, different health data modalities, relevant machine learning paradigms, and the unique challenges presented by healthcare applications. Applications we will cover include risk stratification, disease progression modeling, precision medicine, diagnosis, prognosis, subtype discovery, and improving clinical workflows. We will also cover research topics such as explainability, causality, trust, robustness, and fairness.

Registration Prerequisites: CSCI 5521 or equivalent. Complete the following Google form to request a permission number from the instructor ( https://forms.gle/z8X9pVZfCWMpQQ6o6  ).

Visualization with AI

Meeting Time: 04:00 PM‑05:15 PM TTh  Instructor: Qianwen Wang Course Description: This course aims to investigate how visualization techniques and AI technologies work together to enhance understanding, insights, or outcomes.

This is a seminar style course consisting of lectures, paper presentation, and interactive discussion of the selected papers. Students will also work on a group project where they propose a research idea, survey related studies, and present initial results.

This course will cover the application of visualization to better understand AI models and data, and the use of AI to improve visualization processes. Readings for the course cover papers from the top venues of AI, Visualization, and HCI, topics including AI explainability, reliability, and Human-AI collaboration.    This course is designed for PhD students, Masters students, and advanced undergraduates who want to dig into research.

Registration Prerequisites: Complete the following Google form to request a permission number from the instructor ( https://forms.gle/YTF5EZFUbQRJhHBYA  ). Although the class is primarily intended for PhD students, motivated juniors/seniors and MS students who are interested in this topic are welcome to apply, ensuring they detail their qualifications for the course.

Visualizations for Intelligent AR Systems

Meeting Time: 04:00 PM‑05:15 PM MW  Instructor: Zhu-Tian Chen Course Description: This course aims to explore the role of Data Visualization as a pivotal interface for enhancing human-data and human-AI interactions within Augmented Reality (AR) systems, thereby transforming a broad spectrum of activities in both professional and daily contexts. Structured as a seminar, the course consists of two main components: the theoretical and conceptual foundations delivered through lectures, paper readings, and discussions; and the hands-on experience gained through small assignments and group projects. This class is designed to be highly interactive, and AR devices will be provided to facilitate hands-on learning.    Participants will have the opportunity to experience AR systems, develop cutting-edge AR interfaces, explore AI integration, and apply human-centric design principles. The course is designed to advance students' technical skills in AR and AI, as well as their understanding of how these technologies can be leveraged to enrich human experiences across various domains. Students will be encouraged to create innovative projects with the potential for submission to research conferences.

Registration Prerequisites: Complete the following Google form to request a permission number from the instructor ( https://forms.gle/Y81FGaJivoqMQYtq5 ). Students are expected to have a solid foundation in either data visualization, computer graphics, computer vision, or HCI. Having expertise in all would be perfect! However, a robust interest and eagerness to delve into these subjects can be equally valuable, even though it means you need to learn some basic concepts independently.

Sustainable Computing: A Systems View

Meeting Time: 09:45 AM‑11:00 AM  Instructor: Abhishek Chandra Course Description: In recent years, there has been a dramatic increase in the pervasiveness, scale, and distribution of computing infrastructure: ranging from cloud, HPC systems, and data centers to edge computing and pervasive computing in the form of micro-data centers, mobile phones, sensors, and IoT devices embedded in the environment around us. The growing amount of computing, storage, and networking demand leads to increased energy usage, carbon emissions, and natural resource consumption. To reduce their environmental impact, there is a growing need to make computing systems sustainable. In this course, we will examine sustainable computing from a systems perspective. We will examine a number of questions:   • How can we design and build sustainable computing systems?   • How can we manage resources efficiently?   • What system software and algorithms can reduce computational needs?    Topics of interest would include:   • Sustainable system design and architectures   • Sustainability-aware systems software and management   • Sustainability in large-scale distributed computing (clouds, data centers, HPC)   • Sustainability in dispersed computing (edge, mobile computing, sensors/IoT)

Registration Prerequisites: This course is targeted towards students with a strong interest in computer systems (Operating Systems, Distributed Systems, Networking, Databases, etc.). Background in Operating Systems (Equivalent of CSCI 5103) and basic understanding of Computer Networking (Equivalent of CSCI 4211) is required.

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MIT News | Massachusetts Institute of Technology

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New major crosses disciplines to address climate change

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Lauren Aguilar knew she wanted to study energy systems at MIT, but before Course 1-12 (Climate System Science and Engineering) became a new undergraduate major, she didn't see an obvious path to study the systems aspects of energy, policy, and climate associated with the energy transition.

Aguilar was drawn to the new major that was jointly launched by the departments of Civil and Environmental Engineering (CEE) and Earth, Atmospheric and Planetary Sciences (EAPS) in 2023. She could take engineering systems classes and gain knowledge in climate.

“Having climate knowledge enriches my understanding of how to build reliable and resilient energy systems for climate change mitigation. Understanding upon what scale we can forecast and predict climate change is crucial to build the appropriate level of energy infrastructure,” says Aguilar.

The interdisciplinary structure of the 1-12 major has students engaging with and learning from professors in different disciplines across the Institute. The blended major was designed to provide a foundational understanding of the Earth system and engineering principles — as well as an understanding of human and institutional behavior as it relates to the climate challenge . Students learn the fundamental sciences through subjects like an atmospheric chemistry class focused on the global carbon cycle or a physics class on low-carbon energy systems. The major also covers topics in data science and machine learning as they relate to forecasting climate risks and building resilience, in addition to policy, economics, and environmental justice studies.

Junior Ananda Figueiredo was one of the first students to declare the 1-12 major. Her decision to change majors stemmed from a motivation to improve people’s lives, especially when it comes to equality. “I like to look at things from a systems perspective, and climate change is such a complicated issue connected to many different pieces of our society,” says Figueiredo.

A multifaceted field of study

The 1-12 major prepares students with the necessary foundational expertise across disciplines to confront climate change. Andrew Babbin, an academic advisor in the new degree program and the Cecil and Ida Green Career Development Associate Professor in EAPS, says the new major harnesses rigorous training encompassing science, engineering, and policy to design and execute a way forward for society.

Within its first year, Course 1-12 has attracted students with a diverse set of interests, ranging from machine learning for sustainability to nature-based solutions for carbon management to developing the next renewable energy technology and integrating it into the power system.

Academic advisor Michael Howland, the Esther and Harold E. Edgerton Assistant Professor of Civil and Environmental Engineering, says the best part of this degree is the students, and the enthusiasm and optimism they bring to the climate challenge.

“We have students seeking to impact policy and students double-majoring in computer science. For this generation, climate change is a challenge for today, not for the future. Their actions inside and outside the classroom speak to the urgency of the challenge and the promise that we can solve it,” Howland says.

The degree program also leaves plenty of space for students to develop and follow their interests. Sophomore Katherine Kempff began this spring semester as a 1-12 major interested in sustainability and renewable energy. Kempff was worried she wouldn’t be able to finish 1-12 once she made the switch to a different set of classes, but Howland assured her there would be no problems, based on the structure of 1-12.

“I really like how flexible 1-12 is. There's a lot of classes that satisfy the requirements, and you are not pigeonholed. I feel like I'm going to be able to do what I'm interested in, rather than just following a set path of a major,” says Kempff.

Kempff is leveraging her skills she developed this semester and exploring different career interests. She is interviewing for sustainability and energy-sector internships in Boston and MIT this summer, and is particularly interested in assisting MIT in meeting its new sustainability goals.

Engineering a sustainable future

The new major dovetail’s MIT’s commitment to address climate change with its steps in prioritizing and enhancing climate education. As the Institute continues making strides to accelerate solutions, students can play a leading role in changing the future.   

“Climate awareness is critical to all MIT students, most of whom will face the consequences of the projection models for the end of the century,” says Babbin. “One-12 will be a focal point of the climate education mission to train the brightest and most creative students to engineer a better world and understand the complex science necessary to design and verify any solutions they invent."

Justin Cole, who transferred to MIT in January from the University of Colorado, served in the U.S. Air Force for nine years. Over the course of his service, he had a front row seat to the changing climate. From helping with the wildfire cleanup in Black Forest, Colorado — after the state's most destructive fire at the time — to witnessing two category 5 typhoons in Japan in 2018, Cole's experiences of these natural disasters impressed upon him that climate security was a prerequisite to international security. 

Cole was recently accepted into the  MIT Energy and Climate Club  Launchpad initiative where he will work to solve real-world climate and energy problems with professionals in industry.

“All of the dots are connecting so far in my classes, and all the hopes that I have for studying the climate crisis and the solutions to it at MIT are coming true,” says Cole.

With a career path that is increasingly growing, there is a rising demand for scientists and engineers who have both deep knowledge of environmental and climate systems and expertise in methods for climate change mitigation.

“Climate science must be coupled with climate solutions. As we experience worsening climate change, the environmental system will increasingly behave in new ways that we haven’t seen in the past,” says Howland. “Solutions to climate change must go beyond good engineering of small-scale components. We need to ensure that our system-scale solutions are maximally effective in reducing climate change, but are also resilient to climate change. And there is no time to waste,” he says.

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WashU Expert: DeFake tool protects voice recordings from cybercriminals

Zhang is among three winners of Federal Trade Commission’s Voice Cloning Challenge to prevent, monitor and evaluate malicious voice cloning

In what has become a familiar refrain when discussing artificial intelligence (AI)-enabled technologies, voice cloning makes possible beneficial advances in accessibility and creativity while also enabling increasingly sophisticated scams and deepfakes. To combat the potential negative impacts of voice cloning technology, the U.S. Federal Trade Commission (FTC) challenged researchers and technology experts to develop breakthrough ideas on preventing, monitoring and evaluating malicious voice cloning.

Ning Zhang , an assistant professor of computer science and engineering in the McKelvey School of Engineering at Washington University in St. Louis, was one of three winners of the FTC’s Voice Cloning Challenge announced April 8. Zhang explained his winning project, DeFake , which deploys a kind of watermarking for voice recordings. DeFake embeds carefully crafted distortions that are imperceptible to the human ear into recordings, making criminal cloning more difficult by eliminating usable voice samples.

“DeFake uses a technique of adversarial AI that was originally part of the cybercriminals’ toolbox, but now we’re using it to defend against them,” Zhang said. “Voice cloning relies on the use of pre-existing speech samples to clone a voice, which are generally collected from social media and other platforms. By perturbing the recorded audio signal just a little bit, just enough that it still sounds right to human listeners, but it’s completely different to AI, DeFake obstructs cloning by making criminally synthesized speech sound like other voices, not the intended victim.”

The project builds on Zhang’s earlier work to thwart unauthorized speech synthesis before it happens . Zhang and the other two winners of the Voice Cloning Challenge, whose proposals focused on detection and authentication, illustrate the variety of approaches being developed to deter harmful practices and protect consumers from bad actors. The winners were selected by a panel of judges and will split $35,000 in prize money.

Originally published on the McKelvey School of Engineering website

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