The hazard identified was an implosion of a water storage tank due to pressure imbalance in the tank. The implosion or explosion of tank due to pressure imbalances is hazardous as it can result in injuries and fatalities in the plant. In this project therefore a model has been developed to detect any dangerous changes in pressure in the tank either due to leaks from the tank or overfilling of the tank that would result in pressure changes in the tank. The system then automatically controls the pressure by allowing water to flow into the tank or by opening the pressure release valve or by opening the outlet valve to allow release of pressure from the tank. The system designed uses both feedback and feedforward control systems to do this. Using Simulink to simulate this designed system, the results show that the designed system takes 33.48 seconds to settle to the final value in case of any changes in the input or in case of a step disturbance to the system. Also the system response has no offset from the final value this being proof of the precise control of the designed model. Another point of interest in this project is the occurrence of cavitation in water pumps. An in-depth study has been done to identify the causes of cavitation and its effects on the pump output. A system has then been proposed to monitor and detect cavitation in a pump. However due to the limitation of time and resources this model could not be created or simulated and thus only theoretical analysis was done for this proposed model. This project therefore goes a long way in decreasing accidents that may happen at SABIC tanks due to pressure imbalances and it also proposes a method for monitoring of cavitation in pumps.
The DC motor is supplied from a DC source through a chopper that is made up of a free-wheeling diode and a gate turn off thyristor. A speed controller made from a PI controller is used to compare the DC motor speed and reference speed then generate a current reference in case of a deviation between the two speeds. The reference current is compared to the armature current by a current controller that also has a PI controller and the current difference if any is used to fire the chopper which then supplies the DC motor with a DC voltage. From the results it has been shown that the modelled DC motor follows the reference speed with a high accuracy even during speed and load changes. It has also been shown that the armature current is directly proportional to the load torque up to the rated speed. The speed was however found to have an inverse relationship with the load torque. Therefore an increase in the load torque resulted in a decrease in the DC motor speed. Manufacturers and other users of DC motors in appliances such as in robot and home appliances such as fans would find this project significant as the DC motor speed can be kept constant at the required speed or controlled accurately using this designed system irrespective of changes in the load to the motor and changes in supply voltage.
Any interruptions of the supply will lead to adverse effects, mostly economical and the effects tend to worsen as the duration of the power disruption/outage increases. Thus, a system that can monitor the location of the outage will greatly help in the response time needed to restore power. This project proposes to come up with such a solution. The main aim of the project is to come up with an algorithm that can detect where and when there is a line outage using the method of “Phasor angle measurement”. The system will detect remotely, from a central location, the location of a fault and show the lines affected by this outage. The information will then be sent to a team on the ground to respond immediately to restore the power. The literature review carried out highlights similar existing systems, their operation and their limitation. This project then offers to come up with a solution to counter these shortcomings. The design of the system has been expounded and the operation of the system broken down for easy understanding. At the end of this project, the system designed aims to be a low cost, a more reliable and a user-friendly system that is easy to use.
In the present times, cleaning of whiteboards consumes a considerable amount of time that could otherwise be used for the presentation. In this report therefore an automatic whiteboard cleaner has been designed and simulated. The design was done to improve on the limitations of current systems that include tear and wear due to use of belts, lower efficiency due to use of long brushes, costly systems due to use of expensive components, lack of safety features such as an emergency stop button to stop the execution of the system at any point due to an emergency. In the designed system, the whiteboard was cleaned twice within a period of 9 seconds (top down and down up cleaning). An emergency stop button was used together with an infrared obstacle sensor for detection of human body parts or any other obstacle in the path of the whiteboard wiper and stop the system. From the simulation results it was shown that whenever there was an obstacle in the path of the whiteboard wiper, no motors were activated and a RED light emitting diode (LED) was activated to alert the user of the presence of the obstacle in the path of the wiper. When the left or right push buttons were activated and no obstacle was present in the path of the dusters, the GREEN LED was activated and the respective DC motor was activated to clean the whiteboard. Pressing the emergency stop button at any point during the running of the system brought the system to a stop and the rest the micro-controller.
For this reason therefore many irrigation methods have been developed over the years by man to artificially supply water to the plants. This is because rain dependent agriculture was found to be unreliable due to the irregular nature of rain both in quantity and frequency and this is at times insufficient for some plants. Several smart gardens have been developed in recent years to make certain operations in the garden independent of human labour. The devices reviewed in this report were found to use certain technology such as overhead sprinklers that result in waste of water, cellular networks for remote control of the systems and this limits the use of these systems to areas with regular cellular network and the use of controllers such as Arduino and Raspberry Pi that may not be tolerant to the harsh environmental and mechanical conditions in the garden. In this project therefore a smart garden system was designed and developed that uses a computer as a controller, uses an interface unit to connect sensors (temperature, soil moisture, humidity and light) in the garden with the computer and the actuators (relays). The system can operate either in manual or automatic mode and it provides a controlled environment in terms of the correct temperature, soil moisture, environmental humidity and light intensity levels as required by the garden plants. The system designed and fabricated in this project also has a mobile application from which manual control of the smart garden can be done through a server. The developed system helps to conserve water as garden is only watered when required, it helps conserve electricity by using solar panel as a secondary energy source and by activating devices such as lights, servo motor, fan and pumps only when required. Another benefit of the developed smart garden system is that it is flexible and so can be used with several plants. Flexibility comes in terms of the ability of the set points of the various parameters of the system to be changed at will by the farmer. Recommendations such as improving the system to monitor and control livestock farming has been proposed to make the system all- inclusive and decrease the need for having multiple systems for monitoring of plants and livestock in the same location.
The functions of the system are improving security of the home and remote control of appliances. The proposed system is made up of a smoke and gas sensor, an infrared reflective sensor, a water level sensor together with a motion sensor interfaced to a PC through an interface kit. The PC is also connected to a servo motor, a buzzer, an LED, a camera, magnetic switch and a radio frequency identification (RFID) system. In this report, the existing smart home systems were reviewed and their limitations that include noise that interferes with interpretation of control commands, use of internet connectivity for remote control of the system that is not available in all localities worldwide, resistance from the elderly people against smart home systems that reduce their autonomy and large sizes of wearable sensor devices that are not accepted widely were identified. The system in this project therefore was designed to improve on these limitations and produce a system that would be accepted widely that had no wearable devices and was not prone to interference due to noise. Looking at the applications of smart homes it was shown that they can be used in control of appliances in the home, for monitoring of the health of the elderly in homes, for improving security of the home when the owner is away and for energy management in the home. Since the smart home market is expected to grow at a compound annual growth rate of 14.5 % from USD 24.10 billion in 2016 to USD 53.45 billion in 2022, the demand for these systems is expected to grow thus it is expected that the demand for systems such as the one developed in this project will increase in the future with the competition being based on functionality, ease of use, cost, efficiency and power consumption of the system. It is therefore viable to focus attention and resources in this project to develop a fully functional system not only for this project but one that can be commercialised.
Plants obtain their water from the soil through their roots. The soil moisture content is however very variable and may not be sufficient to the plant since it is usually dependent on irregular, insufficient and uneven rainfall. Through irrigation, the soil moisture content can be improved. In this project, a smart irrigation system has been designed that monitors the soil moisture levels and automatically activates a water pump that pumps the water to the farm. This system is completely automatic in operation and has benefits such as cost savings due to less water consumption and use of a hybrid solar PV (photovoltaic) –grid powered system to power the pump. In this project report, the currently existing irrigation techniques as well as the classical irrigation methods have been discussed and their benefits and disadvantages discussed. Key among most of the existing devices is the high cost of irrigation due to the high electricity or diesel costs required to operate the water pump. Irrigation methods such as overhead irrigation waste a lot of water thus the high costs. The use of PV systems in irrigation have also been presented in this report both stand alone and grid connected systems. In the design of the smart irrigation system in this project therefore, a cost analysis has been done to compare the cost of using the PV based system to the cost of using grid based system and from this the payback period of the PV based system determined to be 9.14 years. A total of 17 batteries were also included in the system and were used to provide exclusive power to the DC motor of the water pump. Design calculations done in this project determined that the PV module requirement for our system is 15 panels which have a 330 W rated output power and 17 batteries with a rated current capacity of 200 AH. The PV panels require a total of 25.968 square meters of roof space while batteries require a storage space of 2.1301 square meters. Simulink software was used to simulate the PV, Battery State of Charge, Maximum Power Point Tracking (MPPT) and the entire irrigation system and the models built together with results presented and discussed in this report. The device designed in this project therefore is of great significance to farmers, water and electrical utilities as there would be reduced consumption of water and grid electricity thus it introduces cost savings of around $ 44 349.49 annually.
However, the government is strongly advocating for the installation of green renewable energy sources. This has fostered an increased adoption of PV generation systems. The net-metering system has been deployed in the country to allow PV owners to sell their excess energy generated. The P2P model, however, is gaining significant interest. Dhaka is one of the largest electricity consumers in the country. Therefore, an analysis has been conducted with Uttara, Dhaka being the case study region. The rooftop PV generation capacity of the region has been investigated and showed that with 50% of the available rooftop area used for installing solar panels of average capacity, solar power provided a feasible complement to the main grid power. A model was developed to facilitate information exchange leading up to a trade of excess energy for money using the Multichain blockchain and implemented successfully to demonstrate asset transactions. A physical layer design was proposed, synthesized and simulated. The design achieved the basic functionalities to allow energy consumption using local SHS utilities available by the owner, import external power from the grid, and export excess power to other peers. The design, however, still exhibited faults, that necessitated future work. Finally, the economic impact of establishing a blockchain-enabled P2P market for energy trade was investigated. It was projected that the system had the potential of reducing a consumer’s electrical expenditure by 17%.
As such home owners can maximise economic efficiency by using as much of the generated power as possible. Generally, this requires significant effort to manually monitor power generation and turn on appliances such as tumble driers and dishwashers. Some schemes exist to divert excess generated power to battery banks or to heat stored water. However, the former tends to be expensive to purchase, while the latter is not so cost effective as most hot water systems in the UK are run
on gas which is 1/4 of the cost of electricity per kWh. An alternative approach is smart scheduling of high power domestic appliances to maximise energy use in "real-time". This can combine the benefits of low installation costs with efficient consumption generated energy. This project will develop a lowpower wireless power monitoring device system that
measure solar generated power in a single-phase domestic installation. The real-time data will be communicated via domestic WIFI to the Cloud. This data can then be used to feed into a AI platform to implement smart scheduling.
The effects of shading can be mitigated via the use of bypass diodes across the shaded solar cells. In this project, the impact of using bypass diodes on the solar cell performance under partial shading scenarios will be investigated using MATLAB/Simulink software. The developed system comprises (i) PV modules integrated with bypass diodes, (ii) theoretical characterisation of the currentvoltage (I-V) and power-voltage (P-V) curves under various partial shading patterns, and (iii) finding the
optimum number of bypass diodes to use with partial shaded PV modules.
More electrical engineering thesis topics can be found on university websites like this one .
The main aim of an electrical and electronics engineering dissertation is to develop the students’ problem solving, investigative, technical, critical, and communication skills through their managing and accomplishing a substantial individual piece of work. The specific learning outcomes are as illustrated below:
The two main electrical engineering final year project types are: practical electrical engineering dissertation and theoretical electrical engineering dissertation. Practical electrical and electronics engineering final year projects can be further divided into the following categories:
Detailed explanation of types of engineering thesis can be obtained here . You can also view sample projects (both practical and theoretical electrical engineering thesis) from engineeringfinalprojects.com .
Selection of your electrical engineering thesis topic is an important task because it directly affects the likelihood of successfully completing the thesis. There are three main ways through which an electrical engineering dissertation topic can be selected:
The procedure for selecting an engineering thesis topic is well explained in the link. However, you should put in mind that the electrical engineering thesis topic selected should be a topic that you find interesting and you should have access to all materials and equipment necessary to complete it.
Assessment of your electrical engineering thesis is based on a number of deliverables with the main aim being to evaluate the extent by which you have satisfied the learning outcomes. The 5 main electrical and electronics engineering thesis deliverables are listed below:
To get more details about electrical and electronics engineering thesis deliverables, check here .
The report structure or format of an electrical engineering thesis follows the standard engineering dissertation report structure with slight variations between institutions. In addition to the structure, make sure to follow the recommendations regarding referencing, numbering, tense and voice, grammar and plagiarism.
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Theses and dissertations published by graduate students in the Department of Electrical and Computer Engineering, College of Engineering, Old Dominion University since Fall 2016 are available in this collection. Backfiles of all dissertations (and some theses) have also been added.
In late Fall 2023 or Spring 2024, all theses will be digitized and available here. In the meantime, consult the Library Catalog to find older items in print.
Dissertation: Broadband Dielectric Spectroscopic Detection of Volatile Organic Compounds With Zinc Oxide and Metal-Organic Frameworks as Solid-State Sensor Materials , Papa Kojo Amoah
Dissertation: A Trustworthy Self-Sovereign Data and Identity Management Framework , Efat Fathalla
Dissertation: Preserving Location Authenticity: Multi-Sensor System to Thwart GPS Spoofing in Self-Driving Vehicles , Peng Jiang
Thesis: Time Series Models for Predicting Application GPU Utilization and Power Draw Based on Trace Data , Dorothy Xiaoshuang Parry
Dissertation: Computational Modeling and Analysis of Facial Expressions and Gaze for Discovery of Candidate Behavioral Biomarkers for Children and Young Adults with Autism Spectrum Disorder , Megan Anita Witherow
Dissertation: An Advanced Simulation Architecture for Testing Autonomous and Connected Vehicles Enabled by Virtual Reality , Defu Cui
Thesis: OpenSim-Based Musculoskeletal Modeling: Foundation for Interactive Obstetric Simulator , Bahador Dodge
Dissertation: Framework for Implementing Advanced Radar Plotting Aid Capability for Small Maritime Vessels , Jason Stark Harris
Thesis: Generation Of Plasma with a Rotating Electric Field , Franklin Price Mosely
Dissertation: Deep-Learning-Based Classification of Digitally Modulated Signals , John A. Snoap
Dissertation: Wearable Sensor Gait Analysis for Fall Detection Using Deep Learning Methods , Haben Girmay Yhdego
Dissertation: Towards a Robust Defense: A Multifaceted Approach to the Detection and Mitigation of Neural Backdoor Attacks through Feature Space Exploration and Analysis , Liuwan Zhu
Dissertation: A Preventive Medicine Framework for Wearable Abiotic Glucose Detection System , Saikat Banerjee
Dissertation: Development of High Quantum Efficiency Strained Superlattice Spin Polarized Photocathodes Via Metal Organic Chemical Vapor Deposition , Benjamin Belfore
Dissertation: Optimization of 8-Plate Multi-Resonant Coupling Structure Using Class-E 2 Based Capacitive-Wireless Power Transfer System , Yashwanth C. Bezawada
Dissertation: Detection, Tracking, and Classification of Aircraft and Birds from Multirotor Small Unmanned Aircraft Systems , Chester Valentine Dolph
Thesis: Emotion Detection Using an Ensemble Model Trained with Physiological Signals and Inferred Arousal-Valence States , Matthew Nathanael Gray
Thesis: Fabrication of NMOS Logic Gates , Samantha Hahn
Dissertation: Cyber Resilience Analytics For Cyber-Physical Systems , Md Ariful Haque
Thesis: Integrative Physiology-Coupled Pilot-Centered Flight Simulation , Shawn C. Harrison
Thesis: Frequency Agile OFDM System for Radio Communication in High Frequency Bands , Erin E. Hill
Dissertation: Applied Deep Learning: Case Studies in Computer Vision and Natural Language Processing , Md Reshad Ul Hoque
Dissertation: Development and Validation of a Three-Dimensional Optical Imaging System for Chest Wall Deformity Measurement , Nahom Kidane
Thesis: Machine Learning Classification of Digitally Modulated Signals , James A. Latshaw
Dissertation: E-Beam Irradiation Beamline at Jefferson Lab for Wastewater Treatment , Xi Li
Thesis: Chen-Fliess Series for Linear Distributed Systems , Natalie T. Pham
Dissertation: Recrystallization of Cu(In,Ga)Se 2 Semiconductor Thin Films Via Metal Halides Treatment , Deewakar Poudel
Dissertation: Fabrication of Nb 3 Sn by Magnetron Sputtering for Superconducting Radiofrequency Application , Md Nizam Sayeed
Thesis: Development of a Fuzzy Logic Model-Less Aircraft Controller , Christopher M. Scott
Thesis: Design and Analysis of Electrical Power and Communication Systems for 3U SeaLion CubeSat Mission , Joseph D. Siciliano
Dissertation: Enhancing Thermal Stability of Perovskite Solar Cells with a Polymer Through Grain Boundary Passivation , Tanzila Tasnim Ava
Dissertation: Specification, Control, and Applications of Z-Source Circuit Breakers for the Protection of DC Power Networks , Sagar Bhatta
Dissertation: Protection and Disturbance Mitigation of Next Generation Shipboard Power Systems , Marounfa Djibo
Dissertation: Wiener-Fliess Composition of Formal Power Series: Additive Static Feedback and Shuffle Rational Series , Subbarao Venkatesh Guggilam
Dissertation: Deep Learning Approaches for Seagrass Detection in Multispectral Imagery , Kazi Aminul Islam
Thesis: Security Improvements for the Automatic Identification System , Robert E. Litts
Dissertation: Electrostatic Design and Characterization of a 200 keV Photogun and Wien Spin Rotator , Gabriel G. Palacios Serrano
Dissertation: Commissioning & Characterization of Magnetized Gridded Thermionic Electron Source , Mark Stefani
Dissertation: Towards Characterizing Adversarial Opportunity and Behavior in Critical Infrastructure Network , Md Sharif Ullah
Dissertation: Joint Linear and Nonlinear Computation with Data Encryption for Efficient Privacy-Preserving Deep Learning , Qiao Zhang
Thesis: Deposition and Characterization of Indium Nitride and Aluminum Nitride Thin Films by Reactive Sputtering , Sushma Swaraj Atluri
Dissertation: A Novel Non-Enzymatic Glucose Biofuel Cell with Mobile Glucose Sensing , Ankit Baingane
Thesis: Hardware Development for the Generation of Large-Volume High Pressure Plasma By Spatiotemporal Control of Space Charge , Nikhil Boothpur
Dissertation: Secure Mobile Computing by Using Convolutional and Capsule Deep Neural Networks , Rui Ning
Dissertation: Topology Control, Scheduling, and Spectrum Sensing in 5G Networks , Prosanta Paul
Dissertation: Longitudinal Brain Tumor Tracking, Tumor Grading, and Patient Survival Prediction Using MRI , Linmin Pei
Dissertation: Model-Based Approach for Diffuse Glioma Classification, Grading, and Patient Survival Prediction , Zeina A. Shboul
Dissertation: Diagnostic Studies of Non-Thermal Atmospheric Pressure Nanosecond Plasma Jets , Shutong Song
Thesis: Highly Transmissive Scalable Colored Coatings for Architectural Photovoltaic Panels , Akbar Ali Syed
Dissertation: Deep Cellular Recurrent Neural Architecture for Efficient Multidimensional Time-Series Data Processing , Lasitha S. Vidyaratne
Dissertation: Virtual SATCOM, Long Range Broadband Digital Communications , Dennis George Watson
Dissertation: Comprehensive Designs of Innovate Secure Hardware Devices against Machine Learning Attacks and Power Analysis Attacks , Yiming Wen
Thesis: Pulse Power Effects on Transient Plasma Ignition for Combustion , David Wayne Alderman II
Thesis: Demonstration of Visible and Near Infrared Raman Spectrometers and Improved Matched Filter Model for Analysis of Combined Raman Signals , Alexander Matthew Atkinson
Dissertation: Laser-Spark Multicharged Ion Implantation System ‒ Application in Ion Implantation and Neural Deposition of Carbon in Nickel (111) , Oguzhan Balki
Thesis: Radio Frequency Toolbox for Drone Detection and Classification , Abdulkabir Bello
Thesis: Computational Analysis of Antipode Algorithms for the Output Feedback Hopf Algebra , Lance Berlin
Thesis: Solid State Polyaniline Supercapacitors Based on Electrodes Fabricated with Electropolymerization , Jonathan R. Blincoe
Thesis: Design, Implementation, and Analysis of Electrical System Architecture for CubeSat to Ground Communications , Anthony G. Cappiello
Thesis: A Design of Inductive Coupling Wireless Power Transfer System for Electric Vehicle Applications , Sarika Reddy Daida
Dissertation: A Multi-Agent Systems Approach for Analysis of Stepping Stone Attacks , Marco Antonio Gamarra
Dissertation: Using Feature Extraction From Deep Convolutional Neural Networks for Pathological Image Analysis and Its Visual Interpretability , Wei-Wen Hsu
Dissertation: Enhanced Sensing Performance of Novel Nanostructured ZnO Gas Sensors in Ethanol Vapor Concentration Detection Applications , Pengtao Lin
Dissertation: Performance of Cognitive Radio Networks with Unknown Dynamic Primary User Signals , Sara L. MacDonald
Dissertation: Effect of Grain Size and Interface Engineering on the Photovoltaic Performance and Stability of Perovskite Solar Cells , Abdullah Al Mamun
Dissertation: A Laser Ion Source for Thin Film Deposition: Characterization of Source and Growth Conditions , Md Mahmudur Rahman
Thesis: Cyber Security- A New Secured Password Generation Algorithm with Graphical Authentication and Alphanumeric Passwords Along With Encryption , Akash Rao
Dissertation: MIMO Radar Waveform Design and Sparse Reconstruction for Extended Target Detection in Clutter , Christopher Alan Rogers
Dissertation: On Analytic Nonlinear Input-output Systems: Expanded Global Convergence and System Interconnections , Irina M. Winter Arboleda
Dissertation: Deep Recurrent Learning for Efficient Image Recognition Using Small Data , Mahbubul Alam
Thesis: Characterization of Language Cortex Activity During Speech Production and Perception , Hassan Baker
Dissertation: Coexistence and Secure Communication in Wireless Networks , Saygin Bakşi
Thesis: Model-Less Fuzzy Logic Control for the NASA Modeling and Control for Agile Aircraft Development Program , Keith A. Benjamin
Thesis: Non-Destructive Evaluation for Composite Material , Desalegn Temesgen Delelegn
Thesis: Improved Thermal Stability of Cesium-Doped Perovskite Films With PMMA for Solar Cell Application , Christine M. Gausin
Thesis: A Dual Resonant Transformer and a Dielectric Antenna for Picosecond Pulse Radiation , Khiem Huynh
Thesis: A Novel Power Sharing Control Method for Distributed Generators in DC Networks , Christina James
Thesis: IDPAL - Input Decoupled Partially Adiabatic Logic: Implementation and Examination , Kevin A. Johnson
Thesis: New Method of Nickel Oxide as Hole Transport Layer and Characteristics of Nickel Oxide Based Perovskite Solar Cell , Loi Nguyen
Dissertation: Non-Invasive Picosecond Pulse System for Electrostimulation , Ross Aaron Petrella
Dissertation: Optimization of Top Contact for Cu(In,Ga)Se2 Solar Cells , Grace Cherukara Rajan
Dissertation: Generation of Large-Volume Diffuse Plasma by an External Ionization Wave From a Single-Electrode Plasma Jet , Seyed Hamid Razavi Barzoki
Dissertation: 3D Bioprinting Systems for the Study of Mammary Development and Tumorigenesis , John Reid
Dissertation: Development of a Laser-Spark Multicharged Ion System – Application in Shallow Implantation of Sic by Boron and Barium , Md. Haider Ali Shaim
Thesis: Learn-To-Fly Control System Design , Alexander Brent Streit
Thesis: Diffusion Modeling of Impurities Through the Molybdenum Back Contact of CIGS Solar Cells , Chinedum John Akwari
Dissertation: Study of Modified Deposition Process for Cu(In,Ga)Se2 Solar Cell Back Contact , Tasnuva Ashrafee
Thesis: Virtual Substrate Synthesis for Low-Cost High Efficiency III-V , Sean J. Babcock
Dissertation: Speech Based Machine Learning Models for Emotional State Recognition and PTSD Detection , Debrup Banerjee
Thesis: Study of a High-Efficient Wide-Bandgap DC-DC Power Converter for Solar Power Integration , Yashwanth Bezawada
Thesis: Modification of Deposition Process Parameters for Uniform Indium Layer Deposition , Isaac Butt
Dissertation: Enhancement of Thermoelectric Properties of ALD Synthesized PbTe and PbSe by Phonon Engineering , Xin Chen
Thesis: A Correlational Study of SansEC Sensors’ Electric Field Distribution on Lightning Attachment , Kayla M. Farrow
Thesis: Recurrent Neural Networks and Matrix Methods for Cognitive Radio Spectrum Prediction and Security , Alexander M. Glandon
Thesis: A Study of the Sensitivity of Energy Conversion Efficiency to Load Variation in Class-E Resonant Power Inverter , Richard Samuel Jennings
Thesis: Investigation of Low Cost Substrate Approaches for III-V Solar Cells , Marlene Lydia Lichty
Thesis: Deposition of Silicon Thin Films by Ion Beam Assisted Deposition , Tejaswini Miryala
Dissertation: Low Temperature Plasma for the Treatment of Epithelial Cancer Cells , Soheila Mohades
Dissertation: The Efficacy of Programming Energy Controlled Switching in Resistive Random Access Memory (RRAM) , David Malien Nminibapiel
Dissertation: Computational Modeling for Abnormal Brain Tissue Segmentation, Brain Tumor Tracking, and Grading , Syed Mohammad Shamin Reza
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Home > Lyle School of Engineering > Electrical Engineering > Theses and Dissertations
Theses/dissertations from 2024 2024.
UAV-X Communication: Empirical Characterization and Performance Optimization , Muhammad Hashir Syed
A 1.1GS/s 12-bit single-channel pipelined-SAR ADC with an improved CDAC implementation and adaptive interstage redundancy , Xianshan Wen
Wireless Power Transfer Using Cavity with Height Discontinuities , Linsheng Zhang
Study Of Radiation Effects In Gan-Based Devices , Han Gao
Quantum and Classical Learning Algorithms for Grid Integration of Energy Storage and Renewables: Operation, Modelling, and Planning , Bin Huang
Advances in Modern Power Distribution System Planning, Operation, and Market Participation , Yanling Lin
Design and Fabrication of a Low Power 7.2 Terabit Transmitter for Exascale Computing , Scott McWilliams
High Performance Scene Generator for Testing of Imaging Sensors , Austin Modoff
Modeling and Compensating of Noise in Time-of-Flight Sensors , Bryan Rodriguez
On The Integration Of Hydrogen Into Integrated Energy Systems: Reliability Assessment And Optimal Operation And Planning , Tao Wu
Series Aperture Coupled Fed Phased Array Antenna , Guang Yang
Development and Application of a Design Flow for Photonic Integrated Circuits , Ifeanyi Achu
In Band Full Duplex For Wireless Communication, A Medium Access Control Perspective , Yazeed Alkhrijah
Distribution Network Planning and Operation With Autonomous Agents , Abdulraheem Hassan Alobaidi
High Gain and Wide Bandwidth Dielectric Resonator Antennas Fed by Two Different Excitation Techniques , Khalid Alsirhani
The Transport of Acoustic Energy at Two-Dimensional Material Interfaces , Jesus Bolivar
First Order Enhanced Coupling Strength (ECS) Gratings for Laser-Electro Absorption Modulator (EAM) Transmitters , Freddie Castillo II
Second-Order Enhanced Coupling Strength Grating Out-Couplers for a Monolithic Laser-Electro-Absorption Modulator , Maryam Dezfuli
Distribution Network Operation With Solar Photovoltaic And Energy Storage Technology , Mohammad Ramin Feizi
Enhanced Design for Testability Circuitry for Test , Hui Jiang
An Efficient Integrated Circuit Simulator And Time Domain Adjoint Sensitivity Analysis , Jiahua Li
Advances in Power System Operation and Optimization , You Lin
GoLightly : A GPU Implementation of the Finite-Difference Time-Domain Method , S. David Lively
Empirical Models of 3D Air-to-Air Communication Channels , Neil Matson
Orbital Angular Momentum Orthogonality-Based Crosstalk Reduction: Theory And Experiment , Unaiza Tariq
Closed-Loop Brain-Computer Interfaces for Memory Restoration Using Deep Brain Stimulation , David Xiaoliang Wang
Raman Thermometry Of Graphene Based Thermal Materials , Pengcheng Xu
Characterization of UAV-based Wireless Channels With Diverse Antenna Configurations , Mahmoud Badi
A 12-bit 1GS/S SAR-Assisted Pipeline ADC with Harmonic Injecting Residue Amplifier , Liang Fang
Three-Dimensional (3D) Memory I/O Interface Design Using Quad-Band Interconnect (QBI) And Eight-Level Pulse Amplitude Modulation (8-PAM) , Xiaoyan Wang
Electricity Market Operations With Massive Renewable Integration: New Designs , Shengfei Yin
Context-Aware Sensing and Fusion for Structural Health Monitoring and Night Time Traffic Surveillance , Xinxiang Zhang
Heuristic-Based Threat Analysis of Register-Transfer-Level Hardware Designs , Wesley Layton Ellington
Learning Deep Architectures for Power Systems Operation and Analysis , Mahdi Khodayar
A 2.56 Gbps Serial Wireline Transceiver that Supports An Auxiliary Channel and A Hybrid Line Driver to Compensate Large Channel Loss , Xiaoran Wang
Machine Learning Applications In Power Systems , Xinan Wang
Design of a Drone-Flight-Enabled Wireless Isolation Chamber , John Wensowitch
On-Chip Nonreciprocal Components for Full-Duplex Communications and Gaussian Regulated Gate Driver for Electromagnetic Interference Reduction , Chang Yang
Model-Based and Data-driven Situational Awareness for Distribution System Monitoring and Control , Ying Zhang
Sparse Transducer Imaging , Sen Bing
Wireless Channel Characterization Based on Crowdsourced Data and Geographical Features , Rita Enami
Wireless Channel Characterization based on Crowdsourced Data and Geographical Features , Rita Enami
High-Speed Successive Approximation Register (SAR) ADC Design with Multiple Concurrent Comparators , Tao Fu
Stochastic Orthogonalization and Its Application to Machine Learning , Yu Hong
Parametric Amplification Study and Applications in Millimeter-Wave Transmitters , Sherry Huang
Reducing the Production Cost of Semiconductor Chips Using (Parallel and Concurrent) Testing and Real-Time Monitoring , Qutaiba Khasawneh
Performance-Aware and Power-Efficient Three Dimensional (3D) Integrated Circuit (IC) Design Utilizing Evolutionary Algorithms , Nahid Mirzaie
Feedback Mechanisms for Centralized and Distributed Mobile Systems , Yan Shi
Technology-dependent Quantum Logic Synthesis and Compilation , Kaitlin Smith
Leveraging Geographical and Spectral Information for Efficient Cellular Systems , Matthew Tonnemacher
Operation and Planning of Data Centers in Electricity Networks , Ali Vafamehr
Standing-Wave Dielectric Array Antennas , Ayman Althuwayb
High-Performance and Energy Efficient Multi-Band I/O Interface for 3D Stacked Memory , Ahmed Alzahmi
Microgrids: Resilience, Reliability, and Market Structure , Saeed Dehghan Manshadi
Circularly Polarized Two-Dimensional Microstrip Standing-Wave Array Antenna , Yang Fan
Investigation of the effects of harmful radiation on type-II strained layer superlattice focal plane arrays operated in the long wave infrared , Patrick Fumo
Computational Theories For Human Stereo Vision , Han Gao
Enhanced Coupling Strength Gratings for Outcouplers in Optical Waveguides , Ruo-Hua He
A Novel Ultrasound Imaging Technique Using Random Signals , Anahita Khalilzadeh
Indirect Imaging using Heterodyne Remote Digital Holography , Muralidhar Madabhushi Balaji
Linear Phase Multi-Frequency Notch Filter via Quadratic Programming , Yueran Ma
Coordination Operation of Natural Gas and Electricity Network with Line-pack , Junyang Mi
A Comparative Analysis of Integrated Optical Waveguide Isolators with Magneto-Optic Layers , Reyhane Oztekin
Investigating the Effect of Detecting and Mitigating a Ring Oscillator-Based Hardware Trojan , Lakshmi Ramakrishnan
A 56-GS/s 8-Bit Time-Interleaved SAR ADC in 28-nm CMOS , Kexu Sun
Indirect Imaging Using Computational Imaging Techniques , Aparna Viswanath
High-Speed Single-Channel SAR ADC Using Coarse and Fine Comparators with Background Comparator Offset Calibration , Guanhua Wang
Subspace Averaging of Auditory Evoked Potentials , Xiaoliang wang
Accurate Vehicle Detection Using Multi-Camera Data Fusion and Machine Learning , Hao Wu
Using GS/s ADC to Evaluate the EMI of GaN-based Power Devices , Chi Zhang
Design, Fabrication, and Demonstration of Square Holey Dielectric THZ Waveguides , Nafiseh Aflakian
Spatial Division Multiplexing Using Ince-Gaussian Beams , Sahil Sakpal
Securing Database Users from the Threat of SQL Injection Attacks , Nisharg Shah
A Low Power High Speed Mobile Memory I/O Interface Using Reconfigurable Multi-Band Multi-Modulation Signaling , Yue Yu
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A dissertation (or a final year project report) is a comprehensive technical report of the research work carried out. A dissertation must present some new, original concepts that lead to further research. The core area of a dissertation consists of a hypothesis (or a research question) upon which an investigation is conducted and, in most cases, inevitably leads to further research. A dissertation must be focused, concise and must address the research topics at every level. Also, along with research, a dissertation is expected to present complete evidence of research work in the form of research methods. Sometimes it’s hard to even know where to start. Herein, many engineering research areas, currently being sought after in the industry and academia, are suggested, including electronics, sensors technology, environmental engineering, supply chain engineering, computer science engineering, electrical engineering and civil engineering, to help you start your research.
Environmental engineering dissertation topics, supply chain engineering dissertation topics, supply chain management dissertation topics, computer science engineering dissertation topics, electrical engineering dissertation topics, civil engineering dissertation topics, management related engineering dissertation topics, electronics and communications dissertation topics.
Over the past decade the rise of electronic communication has been revolutionised; it is the fastest growing technology. There are numerous areas of research in this field; however, the most demanding ones are highlighted below.
The rise of smart technology has been revolutionising sensor technologies, and there is a high demand to make more efficient and compact sensors. The following topics are a few areas that researchers are currently working in to realise further potentials.
We are living in the age of technology where the driving force is to reduce the environmental impact of engineering products. Many countries have been undertaking projects supporting the environment and aiming to reduce carbon emissions. The following engineering dissertation topics are of utmost interest for researchers in the industry.
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Supply chain management involves the administration, management, control and supervision of the movement of goods and services from supplier to manufacturer to wholesaler to retailer and to the end consumer. Supply chain management involves coordinating and integrating these elements using an effective and efficient approach and methodology. Supply chain management is important for businesses to ensure there is minimum waste, drive innovation thereby creating integrated value chains. Supply chain management plays an important and central role in the success of a business. Please find a list of topics on supply chain management that may be useful for your engineering dissertation:
Computer science engineering focuses on the key elements of computer programming and networking with a focus on gaining knowledge of the design, implementation and management of information systems. Information systems play a major role in computer science engineering and an integral component to the successful operations of organisations. The management of information technology systems is a major element for organisations. The following could be used for an engineering dissertation as well as a computing dissertation:
Electrical engineering is focused on the design, development, testing, supervision and the manufacturing of electrical equipment. Electrical engineers design the electrical systems of automobiles, aircrafts, power generation equipment, communications systems, radar and navigational systems. The design and development of these electrical components are key and central to modern day life. There are several topics within this area that you could research for your electrical engineering dissertation:
The main emphasis of civil engineering in recent times is focused on sustainable development of quality, durable structures that deliver value for money, maximise the benefits from innovation and meets the specifications of the end users. Construction of sustainable houses has been a top priority within civil engineering. The following research topics are being actively undertaken and may be a good area for you to base your research on your own engineering dissertation:
Engineering management is the application of the practice of management to the practice of engineering. Engineering management integrates problem-solving, engineering, technological developments and advancements in organizational structure, administrative, and planning abilities of management in order to oversee the operational performance of complex engineering driven enterprises. These two topics go hand in hand and support each other quite well. It is important that both sides are well balanced. The following research topics could be useful for your engineering dissertation:
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Engineers are always in search of new electrical projects, and finding meaningful projects makes that search worthwhile. Listed below are some electrical projects for such engineers.
A lot of them may deal in a higher power than electronics engineers are used to, hence safety first.
These hand-picked innovative Electrical Projects are simple as well as interesting and contain a few mini projects too. The EEE Students can use these project kits as their final year project.
Recommended: Mini Projects for Engineers
The list contains a total of 35+ Electrical projects for engineering students. These projects will be very helpful to Electrical Engineering Students.
1. dual axis solar power tracker system.
This system requires the involvement of a wide range of engineering including mechanical, electrical, and electronics. The mechanical part would involve designing a smooth gear system to move as per requirement. The electrical part would be the working of solar panel and battery requirement.
The electronics would involve designing the sensor system that would generate commands for the gear system to act accordingly. The system employs spur gear for the implementation of the dual-axis solar tracker. The system is implemented using Atmel IC AT89C51.
This electrical project is available at Dual Axis solar tracker system .
This circuit presents a simple and low-cost DC-to-DC converter for phantom power supplies used in mixing consoles, microphone preamplifiers, telephone systems, and similar equipment.
This project is available at 5V DC To 48V DC Converter .
The application note below should help designers make their own electric vehicle battery charging solutions. If required, help is available from the company.
The Design Guide is available at Design Your Own Electric Vehicle Battery Charging Solutions .
The circuit system of a versatile USB power socket safely converts the 12V battery voltage into stable 5V.
This circuit system is available at USB Power Socket
Presented here is a simple energy meter using Analog Device’s ADE7757 chip for single-phase, 2-wire (phase and neutral) systems used in households.
This circuit system is available at Energy Meter
This project can be used to control up to four industrial electrical appliances with the help of a joystick and an Arduino Nano board.
This project is available at Make This Joystick-Controlled Industrial Automation System
The brushless DC motor driver circuit described here uses a DRV10866 driver IC to drive a small BLDC fan, without using any position sensors.
This project is available at Brushless DC Motor Driver
Circuits like Geiger counters, insect zappers, Nixie tubes, and sensors require high-voltage direct-current (HVDC) supplies. There are various types of HVDC supplies available in the market, including voltage doublers or quadruple, flyback converters, and boost converters.
Some of these have low current output capacity. But with the right calculations using basic boost conversion formulae, we may achieve HVDC supplies capable of clean and high current capacity. Presented here is a boost converter design using an MC34063 DC-DC converter.
This project is available at HVDC Power Supply Design
A simple low-power inverter circuit is described here, which converts 12V DC into 230V AC. It can be used to power very light loads like night lamps and cordless telephones but can be modified into a powerful inverter by adding more MOSFETs.
This project is available at Micro Inverter
Federal and international regulations require boats to carry lights during sunset, sunrise, and in conditions with restricted visibility. The number and colors of light vary with the size of the vessel. A masthead anchor light is out of fashion as it is too high above the water level.
This makes it difficult to judge the position of the boat, especially in a pitch-dark anchorage.
This project is a compact yet inexpensive automatic anchor light integrated with an ambient light sensor that turns it on and off automatically.
This project is available at Automatic Anchor light
The buffer circuit described here is useful in enhancing the AC input impedance of audio amplifiers used with pickups in musical instruments. Signal sources for amplifiers and passive pickups for electric guitars require very high impedance of over 5-mega-ohm.
This can be achieved easily with a junction field-effect transistor (JFET) but may require a special design of the printed circuit board ( PCB ), appropriate construction techniques of the box, and proper cables and connectors.
This project provides a solution for a high-impedance, low-cost, low-quiescent current, buffer-follower based on PN4393 JFET.
This project is available at High-Impedance Audio Buffer With JFET
This is an ultra-sensitive fire sensor that activates an alarm when it detects fire. In this circuit, a sensitive PIN diode is used as a fire sensor for longer-range fire detection. It detects visible light and infrared (IR) in the range of 430 nm – 1100 nm.
Visible light and IR from the fire activate the sensor to trigger the alarm. It also detects sparks in the mains wiring and if these persist, it gives a warning alarm. The anode can easily be identified from the top-view flat surface of the photodiode.
A small solder point to which a thin wire is connected is the anode and the other one is the cathode terminal.
This project is available at PIN Diode-Based Fire Sensor
Op-amps require a dual-polarity supply for proper operation. When working with a battery supply, it becomes difficult to get a dual power supply for the op-amps.
Presented here is a simple circuit that provides ±5V from a 9V battery. This is one of the most interesting projects among Electrical Engineering Project Ideas.
This project is available at Plus-minus 5V Supply From 9V Battery
This project is designed for use with all kinds of medium-power automobile/domestic 12V DC loads. It is a simple solid-state relay (SSR) switch, controlled by a standard passive infrared ( PIR ) motion sensor module.
A PIR sensor is an electronic device that can measure IR light radiating from objects in its field of view. Apparent motion is detected when an IR source with one temperature (such as a human being) passes in front of an IR source with another temperature (such as a wall).
The PIR sensor module, centered on a PIR sensor, has elements made of crystalline material that generates an electric charge when exposed to IR radiation.
This project is available at Infrared Motion-Sensing Relay Switch
The circuit for an LPG leakage detector is readily available in the market, but it is extremely expensive and usually based on a microcontroller (MCU). This project presents a low-cost LPG detector that you can build a circuit easily.
The main objective of the circuit is to detect LPG leakage anywhere. At the heart of the circuit is dual comparator IC LM393 (IC2). It is used to compare two different voltages, in this case, reference voltage and MQ-6 gas sensor output voltage.
This project is available at Low-Cost LPG Leakage Detector
This dusk-dawn controller is built around a light-dependent resistor among other components. The common battery supply is used for operating the circuit as well as for load, that is, for power LED/small inverter circuits.
Resistors work as voltage dividers and current limiters in the circuit. LEDs are used as circuit deactivation indicators. An n-channel MOSFET is used for the switching action of an LED light.
This project is available at Low-Cost Dusk-Dawn Controller
This project is based on the AEIOU heuristic framework of the Design Engineering Approach. Design for Performance, Safety, and Reliability is ensured in terms of switching modules. Design for Ergonomics and Aesthetics is ensured in terms of Priority set by the user regarding the availability of Power Source.
Design for Manufacturability and Assembly is ensured in terms of Generator, Inverter, and Solar Plates.
Also, based on choice and availability, different circuits using Eagle can be worked upon.
This project is available at Auto Power Switching Mains, Solar Inverters, or Generator
Often we require a squarewave signal generator with adjustable frequency, almost equal high and low output pulses, and adjustable amplitudes.
Here we present a simple, useful, and low-cost signal generator built around NE555 timers. Using external switches, you can control or select frequency ranges as per your requirements.
This project is available at Signal Generator and Inverter Using NE555 Timers
RS232 signals cover a much longer distance than standard TTL and I2C signals.
These signals have better noise immunity as well. RS232 is a well-known standard supported by many popular ICs and therefore is still widely used. Sometimes we want to send TTL and I2C signals over a longer distance. This project describes how these signals can be extended through RS232 lines.
This project is available at Configurable RS232 to TTL to I2C adapter
This is a simple, low-cost, energy-saving, and device-saving circuit for an electronics lab, service center, electronics workshop, or wherever a CRO is in use. Generally, in a repair station, a CRO is used for a very short time. But in most cases, the user fails to switch off the CRO immediately after use.
The service engineer mostly concentrates on faults rather than noticing whether the CRO is on or off. A vibration sensor turns the CRO off when the probe is idle for a specified amount of time.
This project is available at the Vibration Activated smart CRO probe
Sometimes we need configurable multichannel amplifiers for experiments or for use in offices or schools. Here is a project based on TDA1554Q, configured for multi-mode functions with four-channel outputs. It has four channels and each channel can provide around 11W over a load of 2 ohms and around 6W over a load of 4 ohms.
The circuit will also work with loads of 4 ohms to 16 ohms. The gain of each channel is fixed at 20dB in single-channel mode and 26dB in BTL mode.
This project is available at 4 channel multi-mode Audio amplifier
Many formulae are required to calculate the parameters involved in a circuit of a transistor-based audio amplifier. Some of these values involve resistors, coupling capacitors, bypass capacitors, power consumption, and the current flowing through different components.
A good amount of time is required to calculate such parameters even with a regular calculator. Using a C++ program, all the parameters can be calculated in a fraction of a second.
This project presents a single-stage transistor audio amplifier that requires a total of 19 formulae to obtain the values of components and analyze the circuit.
This project is available at Design and Analysis of Single-stage Amplifier using C++
This next project is a simple circuit for switching your CCTV camera outputs sequentially. It switches four video and audio channels sequentially, one at a time. It is built around a 555 timer few other components. The timer is configured as an astable multi-vibrator.
A single-side PCB of the four-channel video and audio sequencer is provided along with the component layout. After assembling the circuit on the PCB, enclose it in a suitable plastic box.
This project is available at a Four-channel video and audio Sequencer
Power for TV and set-top box (STB) is derived from a common switchboard. The switched-mode power supply (SMPS) of the TV continues to draw a small amount of power from the mains and the STB is not switched off when you switch off the remote.
This project presents a circuit that can control the main power of an LED TV and the DTH STB. It also protects the devices from harmful initial surges when the power comes back after a power failure.
This project is available at Automated USB-controlled Power Switch
An inverter provides power backup for mains-based appliances in the event of a power failure. Most of the inverters available in the market have complicated circuit designs and are not very economical. Some of them produce a square-wave output, which is undesirable for inductive loads.
This project presents a simple inverter circuit that produces 50Hz quasi-sine-wave output using a single IC CD4047 and some discrete components making it a very cost-effective solution.
This project is available at 1kW sine wave Inverter
There is a need for TTL and CMOS signals by stable frequency sources for the development, testing, and maintenance of digital and analog electronic circuits. These sources are also useful for fast-checking oscilloscopes, probes, multimeters, frequency meters, and other measurement equipment.
This project proposes a circuit that produces fixed frequencies of 4MHz, 6MHz, and 10MHz and adjustable square waves with variable frequencies from around 10Hz to more than 100kHz.
This project is available at 4 Frequency Generator
A programmable time switch is useful in designing an automatic on/off controller for the 3-phase electric motor. This next project proposes a system with two programmable time switches for setting the starting and stopping times of the motor.
Two control circuits interface with the start/stop switches of the 3-phase motor starter. There is a provision for setting days of the week for the controller to function as well.
This project is available at Programmable 3 phase Controller for ON/OFF motor
A stroboscope is a convenient and accurate instrument to measure the speeds of rotating objects in homes or industries. One can use it to find the speed of fans, motors, or any other rotating object.
It is a flashing light that provides sharp light pulses at a variable rate. An object rotating with a frequency matching the pulsed light is observed as stationary.
This project is available at High Power LED Stroboscope
A circuit breaker protects electrical circuits from damage in case of overload or short circuit. Its basic function is to detect a fault condition and interrupt current flow. The system uses an 8-bit microcontroller of the 16f877A family.
An EEPROM stores the password and is easily changeable. The password is entered through a keypad and a relay opens or closes the circuit breaker, which is indicated by a lamp.
This project is available at Password based circuit breaker
Presented here is an under/over-voltage protection circuit that protects refrigerators as well as other appliances from under & over-voltage. The operational amplifier IC LM324 (IC2) is used here as a comparator.
This project is available at Over/Under Voltage Protection of Electrical Appliances
Panel meters in regulated power supplies are used to display electrical parameters like voltage and current. Presented here is a circuit to display the DC voltage and current of power supplies, including DIY-type ones.
This project is available at DC Panel Meter using Arduino
The monitoring system in battery chargers, water-level indicators , etc. uses LEDs to indicate the status of certain conditions. Presented here is a multiple status indicator circuits that use a single RGB LED for seven different indications.
This project is available at Multi-Status Indicator Using Single RGB LED
Here is a simple low-power inverter that converts 12V DC into 230-250V AC. It can be used to power very light loads like window chargers and night lamps, or simply give shock to keep intruders away. The circuit is built around just two ICs, namely, IC CD4047 and IC ULN2004 .
This project is available at Simple Low Power Inverter
In many circuits, the switching action is performed by a relay, which in turn activates an external load. The power consumed by the relay may be unsuitable for battery-power system applications.
Here is a simple solution using some inexpensive components to considerably save power.
This project is available at Power-Saving Relay Driver
Here’s an automatic water pump controller circuit that controls the water pump motor. The motor gets automatically switched on when water in the overhead tank (OHT) falls below the lower limit.
This project is available at the Automatic Water Pump Controller
This is a circuit for a mobile cellphone charger that uses three NiCd cells or eight pencil cells to charge the battery connected at the output terminals.
This project is available at Mobile Cellphone Charger
Presented here is the Hydropower Generation circuit that generates power from a water pipe in a building using a microturbine. The generated electricity can be used to charge batteries, which can be used for emergency lighting or other such purposes. The microturbines produce kinetic energy which in turn helps in Power Generation (Electricity).
This project is available at Generate Power Using Microturbine
Hope these electrical engineering project ideas were useful to you. If you have such interesting electrical project ideas, feel free to post them in the comment section below.
This article was first published on 18 October 2016 and was recently updated in June 2024.
its helpful..thank u
I want a more new I ideas for the agricultural quickly
How about a English grammar book instead? I have no idea what you just said my friend.
Should be: “an English grammar”. You also need it!
ha ha.. they are same
Hypocrite, lmfaoooo!
Hi Venkat, you can get electronics projects related to agriculture here .
we have found that in power system especially distribution system meet with huge voltage drop, now there is a way of mitigation of such issues. if you have any ideas about it, you can because it serious issues in country. thank you
Microcontroller based Smart load management system can be a solution
Its really amazing … it helped me alot in my final year project.
Thank you for your feedback.
Hello sir, I’m EEE student i want relate electrical engineering skills to agricultural field, to make go green, by avoiding fuels can you give some ideas on that topics. please its my humble request
U may use sensor or timer
I need a innovative ideas for the innovation day.I am currently pursuing diploma in Electrical Engineering. Can anyone help me
HI can i have yr email to assists me in my final year project?
I am an electrical engineering student in Ghana,I wish to use your project for my project so please help me with the full project.thanks
Which project are you looking for, let us know.
Need help on the Wireless Power Transmission…..
Kindly elaborate your query.
Hello I’m a final year student and need a project topic can you assist me with that please
Are you looking for anything specific? If you are, we can direct you to the proper project. Let us know.
Hello… Plz can i get more new and innovative ideas about electrical projects .. I ll b thankfull if i get
Hi Shirin, Are you looking for anything specific? If you are, we can direct you to the proper project. Let us know.
Something more agriculture related!
electronic related smart project needed
Plz…can i get more new electrical projects ideas which cannot be implemented still now.I’ll be thankful if I get.
i am 6 semester student i want idea for final year project if u can give me idea about power generation
have u got an idea??????
Hello…..can I get a project that will send a text massage to specified phone numbers when there is a feeder outage in a distribution substation. Please I need your help cause I am an electrical student pursuing bachelor degree in electrical and electronics.
hi am joe frm gh..pls dont u guys have any progect on reneawble energy
Hi, You can search the projects from the search bar given at the upper right corner of the website with keywords like solar, wind turbine etc.
Sir, farmers are dying because of electric shocks while watering the field. I wanna do project such that it should be helpful them. Help me sir
something related to core electrical without use micro controller
hey I need a project topic construct of forward and reverse starter
I need a special projects so that it can help me in my master study in electrical engineering..
sir/mam i’m looking for an embedded system based major project based on very new idea.. plzzz…help me,
good day pls how do i get recents power related projects .am a PGD ELECTRICAL ENGINEERING STUDENT
I want new ideas about electrical projects ..
Hi sir/mam can I get more project ideas related to the agricultural.
I’m doing my mini project… I liked the idea of smart cro probe…can u help me with full project details.. Please
I need the new electrical based projects without microcontroller
i need the new harmonics filters projects full project details
Comment: Machine Vital Card
A project am working on to be able to monitor various machine operation parameters I.e. temperature, vibrations, stability and operational integrity. able to control any system abnormalities through electrical mitigation and intermittently send data to an off site PC. please help
haue u done this project???????/?// broo
I want Power reduction project for a production plant… can u please guide which project will help to reduce power . this can be Globely also…means what other industries doing there best in terms of power saving..
Hello Namasate sir/madam can get any new electrical project ideas on which i can work on it as i am great need of project ideas please help me sir/madam I hope you will do the needful
I want more details about password based circuit breaker.please help me with that.
I want your help to my final year individual project ..please give me good topics for that
I have 1 idea Sir I think it is a audio base active system where we can speak start up the gadjets like TV fan lights etc will be start automatically when the voice can be recognised it. I hope this idea can be like u Sir
its an old idea …siri and google assistant is available in market , and is functional in many smart homes in many areas..Thanks
Please sir, help me with electrical project topics on power, for ND level sir
hello sir, the I dears presented here are just amazing. however, am having project which I want build a circuit which should be functioning as a fuse but it shouldn’t burn out when times of over and undervoltage comes.
Could you please be clear on your query?
Looking for a electrotech project to achieve my b tech
Electronics4u is the Best platform to know about the world electronics .
Can i get some projects related to power for my fyp??
Hello i am studying in embedded system. I need a topic related to Hardware development along with testing, Research and development. Please can you suggest me some topics?
Good day , I’m an electrical engineering in need for thesis topic
Comment: please help us with B Sc/ HND final year project.
I’m james an electrical engineering student please I need you’re idea for our thesis.we want a not very hard to make but nice idea.please
Thank u v. much. They are really very good and useful projects. They can be done as graduation projects for Physics and Engineering students.
hello sir, im Bello an electrical engineering student, wanna know if you can help me on my graduation project of designing remote control device based on single chip microcomputer. any advices or help thank you
I want to start a project on “AUTOMATIC ANCHOR LIGHT” bt I don’t know where to start this project & also how to do this project. I want you to suggest me a right possible way to do this project. It will be very greatful to you sir.
It’s really helpful. Thank you so much. Pls I need help on how to step up DC.
i am final year student in electrical engineering please suggest a new ideals related to electrical project
We have added several projects on this page, please have a look: https://www.electronicsforu.com/category/electronics-projects/hardware-diy
could you please suggest me a final year project topic related to power system or renewable energy?
Is electronic engineering d same thing as electrical electronic engineering
Apart from that, Wireless Power Transmission is one of the great technology in electrical engineering which will change the world.
hello , sir you have provide better idea , but i want new inovatives idea about agriculture bcoz we need to build our word
I need something related to core electrical without using micro controller
You can check all the projects here .
Very interesting blog..looking forward to see more
That’s really a lot of ideas. Thanks for sharing
Thank you for your valuable feedback.
hi Everyone please help find a simple research topic with a clear promble statement
Overload protection of a transformer.please can it be a final year project work, and how would that be
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From the optical fibers that connect the world to deep space exploration, many of humanity’s greatest achievements would have been unthinkable without electrical and computer engineers. Our department has played an important role in many of these advancements.
You can add to our legacy in world-class photonics, high-frequency diodes, and materials science research, and extend our long-standing tradition in computer engineering, devices and circuits, signal and image processing, and communications.
Our co-location with the University of Virginia's School of Medicine enables ECE faculty and students to conduct research in medical imaging, microfluidics, electrophoresis, bio-molecular engineering, and biomedical and cyber-physical data mining. Machine learning and artificial intelligence now influence everything we do, including the design and operation of engineered systems; you can leverage our investments in machine learning research to ride the AI wave.
We aspire to be an inclusive and welcoming place for all, and a hub of innovation where research and teaching go hand-in-hand. Our mission is to prepare the next generation of electrical and computer engineering leaders to solve society’s grand technological challenges and improve quality of life.
Ph.d. in electrical engineering.
We offer a direct pathway from your bachelor's degree to a Ph.D. If you are admitted to the Ph.D. program, you have the option of earning your M.E. or M.S. degree en route.
The M.S. is a research-based master's that requires a final thesis defense.
The M.E. is entirely course based and can be earned in person or online through Virginia Engineering Online .
Uva engineering graduate student resources.
Explore our resources for graduate students, including professional development support and ways to get involved at UVA Engineering.
Find timelines, forms and guidance for completing your degree on schedule.
A detailed resource of graduate degree requirements.
Our electrical engineering program is known throughout industry and academia as a source of outstanding engineers and researchers. Our faculty maintain this reputation by continually updating curricula to reflect current scientific and technological advances and requirements and by maintaining a vigorous, interdisciplinary research program that provides staff and graduate students with high-level learning experiences relevant to societal needs.
Recent graduates have joined industry, such as Apple, Amazon, BAE Systems, Booz Allen Hamilton, Corning, Facebook (now Meta), General Electric, General Motors, Google, Halliburton, Intel Research, Microsoft Research, NVIDA Research, Northrop-Grunman, Oracle, Qualcom and Samsung Research. Some chart their path to government research labs including the Air Force Research Laboratory, Army Research Laboratory, NASA, NIST and The U.S. Department of Energy's National Renewable Energy Laboratory.
Others have followed their advisors' path into academe, pursing postdoctoral research and faculty positions in the United States and overseas, including Kuwait University, the National Defense University of Technology, China; the Royal Thai Air Force Academy; Shanghai Jiao Tong University, China; the University of California Davis, University of Florida, University of Illinois at Urbana Champaign, University of New Hampshire, University of Notre Dame, and Virginia Commonwealth University.
Beth eastwood-beatty .
Electrical engineering research papers/topics, energy storage management of a solar photovoltaic–biomass hybrid power system...
Remote areas that are not within the maximum breakeven grid extension distance limit will not be economical or feasible for grid connections to provide electrical power to the community (remote area). An integrated autonomous sustainable energy system is a feasible option. We worked on a novel multi optimization electrical energy assessment/power management system of a microgrid network that adopted combined dispatch, load-following, and cycle-charging strategies (control system) that acted a...
Abstract: In this work, a small activation chamber was specially designed to facilitate the irradiation of selected samples with secondary neutrons behind a radionuclide production target in the vertical-beam target station (VBTS) at iThemba LABS. The main aim was to assay the radionuclides formed in the samples, with a special interest in those of medical importance. The experiment was performed simultaneously with a routine radionuclide production run, during which the target was bombarded...
Abstract: Long Range (LoRa) is a leading low power wide area network under the IEEE802.15.4 designation. The technology has been used extensively in wireless sensor network applications (WSN) and studies are shifting to investigate the technology’s viability when used for navigation. However, the problem of planning and deployment of LoRa in navigation as well as the repeatable accuracy of such a system based on known timing errors has not been done. The first chapter of this thesis prese...
Abstract: The field of microelectronics experienced a huge shift from the traditional planar MOSFET to 3D multi-gated structures, most noticeable being the FinFET. FinFET is regarded the most favourable for progressing CMOS downscalling in the nanometer scale due to its ability to suppress short channel effects due to its better gate control, enabling it to achieve performance of high quality and low power. The fin dimen sions play a huge role in the design of a FinFET. Looking at the gadget...
This paper presents a comprehensive analysis of power flow and fault scenarios in a complex power system configuration consisting of generators, transformers, transmission lines, buses, and loads. Utilizing MATLAB's Power System Analysis Toolbox (PSAT) and employing the Newton-Rhapson Method, power flow calculations were conducted to assess system performance under normal operating conditions. Subsequently, fault analyses, including Double Line-To-Ground Fault (DLG) and Three-Phase Fault (3φ...
Abstract: Due to human influence and its negative impacts on the world’s environment, the world ischanging into a cleaner and more sustainable energy system. In both private and public buildings, there isa desire to reduce electricity usage, automate appliances, and optimize the electricity usage of a building.This paper presents the design and implementation of a secured smart home switching system based onwireless communications and self-energy harvesting. The proposed secured smart home...
Abstract: This study describes a DC to DC voltage multiplier using the 555 Integrated Circuit (IC) timer in an astable state. The major motivation of the design is to be able to produce an inexpensive and light form of generating high DC voltage to power devises that would normal need a really large and heavy battery to be operated. The study also briefly touch on the negative aspects of large DC voltage, heat dissipation and general battery life. With the help of the astable state of the mu...
Abstract: This paper presents the design and simulation of an Automatic Room Heater Control system. This system allows the user to set a desired temperature which is then compared to the room temperature measured by a temperature sensor.With the help of a micro controller, the system responds by turning ON any of the two (2) loads (Fan or a heater) automatically depending on the temperature difference. The Fan is triggered ON when the room temperature is higher than the set temperature and t...
Abstract: Improving Available Transfer Capability is an important issue in the deregulated power systems. The Available Transfer Capability of a transmission network is the transfer capabilities of a transmission network for the transfer of power for further commercial activity, over and above already committed usage. It is a proven fact that Flexible Alternating Current Transmission System technology can control voltage magnitude, phase angle, and circuit reactance. Therefore, it is importa...
Abstract: The reactive power compensation in power system is done by using different Flexible AC Transmission Controllers (FACTS). Unified Power Flow Controller (UPFC) is simulated and analyzed to observe its overall functions when integrated into a transmission line. It is installed in electric transmission lines hence assisting in the controlling and manipulating of the power flowing in the lines to give out reliable, controlled and efficient electricity to an ordinary consumer. The modell...
Abstract: Global Navigation Satellite System Reflectometry (GNSSR) can be used to derive information about the composition or the properties of ground surfaces, by analyzing signals emitted by GNSS satellites and reflected from the ground. If the received power is measured with linearly polarized antennas, under the condition of smooth surface, the reflected signal is proportional to the modulus of the perpendicular and parallel polarization Fresnel coefficients, which depend on the incidenc...
Abstract: The use of the millimeter wave (mmWave) spectrum and further exploration of sub mmWave has led to a new era in wireless communication, as the need for higher data rates grows. High frequencies, on one hand, incur a higher path loss, requiring an increase in antenna gain requirements. Metasurfaces, which emerge as a promising technology for mitigating path loss effects by utilizing 2D arrays of engineered meta-atoms resembling metamaterials that control the surface’s electromagnet...
Abstract: Amidst escalating data traffic demands, the fifth generation (5G) of mobile communication has been launched to curb these demands by providing high data rates, decreased latency, increased network capacity and large bandwidth. The ambitious performance expected from the 5G cellular communication network is enabled by different key technologies including shifting towards the millimeter wave frequency band. However, the millimeter wave band is accompanied by limitations of signal pat...
Abstract: This paper presents the design and implementation of Modular Multilevel Inverter (MMI) to control the Induction Motor (IM) drive using intelligent techniques towards marine water pumping applications. The proposed inverter is of eleven levels and has the ability to control the speed of an IM drive which is fed from solar photovoltaics. It is estimated that the energy consumed by pumping schemes in an onboard ship is nearly 50% of the total energy. Considering this fact, this paper ...
Abstract: This paper reports the experimental investigation of the corona discharge activity of punga oil under the influence of a local magnetic field and different voltage profiles (AC and DC voltages) using fluorescent fiber sensor as well as UHF sensor technique. The corona inception voltage (CIV) of punga oil is higher under negative DC voltage followed by positive DC and AC voltage, with a marginal reduction in its CIV magnitude observed on the impact of external magnetic field. The do...
Electrical engineering is a professional engineering discipline that generally deals with the study and application of electricity, electronics, and electromagnetism. It is the branch of engineering that deals with the technology of electricity. Afribary curates list of academic papers and project topics in Electrical Engineering. You can browse Electrical Engineering Project topics, Electrical Engineering thesis topics, Electrical Engineering seminar topics, research papers, termpapers topics in Electrical Engineering. Electrical Engineering projects, thesis, seminars and termpapers topic and materials
Design and construction of 36w automatic solar street light using solar panel, charge controller, led and with battery, modeling of core loss in induction machine, impact of weather variables on electricity power demand forecast using fuzzy logic technique, photovoltaics — a path to sustainable futures, correlation of light-induced changes in a-si:h films with characteristics of corresponding solar cells, light-induced defect states in hydrogenated amorphous silicon centered around 1.0 and 1.2 ev from the conduction band edge, levelized cost of electricity for solar photovoltaic, battery and cogen hybrid systems, double amorphous silicon-carbide p-layer structures producing highly stabilized pin-type protocrystalline silicon multilayer solar cells, maximization of the open circuit voltage for a-si:h n-i-p solar cells by incorporation of protocrystalline si:h p-type layers, coal with carbon capture and sequestration is not as land use efficient as solar photovoltaic technology for climate neutral electricity production, photovoltaic system performance enhancement with non-tracking planar concentrators: experimental results and bi-directional reflectance function (bdrf) based modelling, speed control of marine diesel engine self-tuning based on fuzzy pid control and genetic algorithm pid, absence of carrier recombination associated with the defect pool model in a-si:h i-layers: evidence from current-voltage characteristics on p-i-n and n-i-p solar cells, microstructurally engineered p-layers for obtaining high open-circuit voltages in a-si:h n-i-p solar cells, square wave to sinounsidal wave form.
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Graduate Coordinator: Dr. Lesley Strawderman
260 McCain Hall Box 9571 Mississippi State, MS 39762 Telephone: 662-325-7214 E-mail: ene-grad [email protected]
The Ph.D. in Engineering with concentration in Engineering Education (ENE) incorporates theory and practice so that its students are prepared to be teachers and scholars in the emerging field of engineering education. Engineering education incorporates theory with applied practice to prepare its graduates for a wide range of careers.
Graduates of the doctoral program will be able to conduct and direct research in engineering education, develop, review, and critique effective research designs, effectively teach engineering subjects, design and assess engineering programs, and address critical issues facing engineering education.
The engineering education graduate program is interdisciplinary, with faculty drawn from the academic departments of the Bagley College of Engineering and the College of Education. Program of study and research leads to the Doctor of Philosophy in Engineering degree with concentration in Engineering Education and is offered on the Starkville campus.
Admission Criteria--An applicant for admission to graduate study must hold a bachelor's degree from a fully recognized four-year educational institution that has unconditional accreditation with appropriate accreditation agencies. He/she must meet the admission requirements of the Graduate School and receive a positive recommendation by the Engineering Education Program Committee. Admission is based primarily on past performance, letters of recommendation, Grade Record Examination (GRE) scores, and the applicant's demonstrated ability to be successful in the ENE Ph.D. program. Applicants with a bachelor's or master's degree from a program accredited by the Engineering Accreditation Commission (EAC) of ABET are preferred.
Regular admission to graduate study in the ENE Ph.D. program for students entering with only a Bachelor's degree requires a minimum grade point average (last four semesters of undergraduate work) of 3.50/4.00. Regular admission to graduate study in the ENE Ph.D. program for students entering with a Master's degree requires a minimum grade point average of 3.30/4.00 in the student's graduate work. When a student is deficient in one of the criteria cited, the student's application, nevertheless, may be considered for admission based on the strength of other materials contained in the student's application. However, reasonable minimum levels of performance must be achieved in both the applicant's GPA and GRE scores. International applicants not holding degrees form U.S. institutions must submit a Test of English as a Foreign Language (TOEFL) report of 575 PBT (84 iBT) or an International English Language Testing Systems (IELTS) score of 7.0 or higher to be considered for admission.
Provisional Admission--An applicant who has not fully met the GPA requirement stipulated by the University ma be admitted on a provisional basis. The provisionally-admitted student is eligible for a change to regular status after receiving a 3.50 GPA on the first 9 hours of graduate courses at Mississippi State University (with no grade lower than a B). The first 9 hours of graduate courses must be within the student's program of study. Courses with an S grade, transfer credits, or credits earned while in Unclassified status cannot be used to satisfy this requirement. If a 3.50 GPA is not attained on the first 9 hours of graduate courses, the provisional student shall be dismissed from the graduate program. While in the provisional status, a student is not eligible to hold a graduate assistantship. The minimum acceptable undergraduate grade point average for admission as a provisional student is 3.00/4.00 for the junior and senior years.
Contingent Admission--A student not possessing a B.S. or M.S. degree in an engineering or computer science discipline may be granted contingent admission, depending on qualifications and experienced. A plan of action toward regular admission is formed by the ENE Graduate Coordinator and ENE Program Committee on a case-by-case basis. Typically, contingency is removed by completing undergraduate prerequisite courses in the first few terms after admission. Contingency-admitted students must maintain at least a 3.50/4.00 GPA on all undergraduate prerequisite courses prescribed by their contingency plan of action. For more information, please contact the ENE Graduate Coordinator.
The specific requirements for the Ph.D. in Engineering with concentration in engineering Education degree are governed by the requirements of the Graduate School, the Bagley College of Engineering, and by the student's graduate committee. he ENE Ph.D. student's graduate committee must include at least two Engineering Education faculty, one College of Education faculty member, and one faculty ember from their engineering technical subject area. The graduate committee will ensure that the student's program of study adequately addresses each of the three primary cross-disciplinary areas: engineering education, educational theory/cognitive science/psychology, and an engineering technical area. The Engineering Education Graduate Coordinator must approved the composition of the graduate committee.
Required Courses | ||
Foundations in Engineering Education | 3 | |
Pedagogy & Assessment in Engineering Education | 3 | |
Function and Methods of Research in Education | 3 | |
Educational Research Design | 3 | |
Statistics Requirement | ||
Engineering Statistics II | 3 | |
Advanced Statistics Course (see Graduate Coordinator for a list of approved courses) | 3 | |
Select graduate courses in EDF and EPY | 6 | |
Other Engineering graduate courses | 18 | |
Select graduate elective courses | 6 | |
Research in Engineering Education | 20 | |
Total Hours | 68 |
The Engineering Education Graduate Coordinator and the student's graduate committee must approve the student's program of study.
The Doctor of Philosophy in Engineering with concentration in Engineering Education, in addition to the coursework and research hours, includes an oral preliminary, a dissertation, and dissertation defense. Each candidate for the doctoral degree must conduct research and in their dissertation defense on that research demonstrate a master of the techniques of research and make a distinct contribution to the field of Engineering Education. The dissertation must conform to the rules of the Graduate School.
Students in the ENE PhD program are required to pass the oral comprehensive examination in accordance with the program requirements and all Graduate School policies. The student must have completed, or be within 6 hours of completing, their program of study coursework. The comprehensive exam consists of topics from the student's completed program of study, a presentation of current research activities toward the student's dissertation, and a detailed plan/proposal of dissertation research to be done. Upon successful completion of the comprehensive exam and all coursework on the student's program of study, the student advances to PhD candidacy.
Ph.D. candidates ae required to pass a public dissertation defense to graduate. The Graduate Catalog lists dissertation defense requirements. Additionally, Ph.D. Candidates must submit two journal papers from their dissertation prior to graduation. The receive the ENE Graduate Coordinator's signature on the signature page, a Ph.D. candidate must provide proof of two journal submissions from the dissertation work; otherwise, the Ph.D. candidate will not be allowed to graduate. Journal paper submissions from work not a part of the dissertation, while strong encouraged, cannot be used to satisfy this requirement.
In addition to the criteria defined in the current Graduate Catalog , unsatisfactory performance in the Ph.D. program in Engineering with concentration in Engineering Education is defined as any of the following;
Directed Individual Study in Engineering Education | 1-6 | |
Foundations in Engineering Education | 3 | |
Pedagogy & Assessment in Engineering Education | 3 | |
Design in Engineering Education & Practice | 3 | |
Special Topics in Engineering Education | 1-9 | |
Research in Engineering Education | 1-13 |
Mississippi State, MS 39762 | 662.325.2323 © 2012 Mississippi State University. All rights reserved.
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About the program.
Since its foundation, the University of Michigan – Dearborn has been a leading center for automotive engineering education. The graduate program in Automotive Systems Engineering, one of the first of its kind, has launched thousands of successful careers. In 2023, based on the input from our industry partners, the program was redesigned and given the new name of the Automotive and Mobility Systems Engineering program.
The new interdisciplinary degree focuses on recent technology developments like electrified and hybrid drives, autonomous vehicles, new mobility solutions, intelligent control systems, advanced design and manufacturing, and enhanced comfort and safety. Students learn from PhD faculty engaged in cutting-edge research and from leading industry experts The classes integrate theoretical knowledge with practical challenges through hands-on training, creative design, and problem-solving.
This program may be completed entirely on campus, entirely online, or through a combination of on-campus and online courses. See "Online Options" section below for more details.
Laboratories covering all aspects of automotive and mobility technology provide students with hands-on experience. This includes major research equipment: a driving simulator, an AVL engine dyno facility, center for battery manufacturing and testing, and more.
Faculty from the entire College of Engineering and Computer Science teach courses in the program. Additionally, several courses are taught by leading experts from the local industry.
Research and teaching assistantships may be available to exceptionally qualified students.
The 30-credit program consists of a required group of core courses (12 credits) and an elective concentration (18 credits). The core provides a broad interdisciplinary understanding of automotive and mobility engineering. The concentration, which has to be declared and appears on student’s transcripts, can be selected from one of four areas: Vehicle Powertrain and Performance, Vehicle Design and Manufacturing, Vehicle Electrification, or Intelligent Vehicle Systems. For students with special interests not matched by any of these areas, a General Study concentration is available. To gain in-depth engineering design or research experience, students can complete a capstone project or a master's thesis.
Almost all classes are offered as a combination of on-campus lectures and online asynchronous instruction. On-campus sections are scheduled Monday-Thursday from 6-8:45 PM, except for several classes, which are offered in the late afternoon. Classes are offered in Fall (Sep-Dec), Winter (Jan-Apr), Summer I (May-June), and Summer II (July-Aug) terms. Fall and Winter courses meet once a week, while Summer I and Summer II courses meet twice a week.
An applicant to the program should hold a Bachelor of Science (BS) or equivalent degree in engineering from an accredited program with a minimum cumulative grade point average of 3.0 (on a 4.0 scale). An applicant with a lower GPA, or an applicant with a non-engineering Bachelor degree in science or mathematics, may be considered for admission consistent with the guidelines.
The program's interdisciplinary nature welcomes students from various undergraduate backgrounds. If applicants are unsure about how their educational background aligns with the program's requirements, they can request a review before submitting their application. Please contact the graduate program coordinator for more information at [email protected] .
Standardized tests, such as GRE, are not required.
At least two (2) letters of recommendation are required as part of the application. These should come from people who know you, either academically (professor or research advisor) or professionally (supervisor or manager). Letters of reference from peer employees or personal sources are invalid and will not be considered.
The program may be completed entirely online through CECS Online , entirely on-campus, or through a combination of on-campus and online courses. The online courses utilize video streaming of the lectures given on campus. Online students have the opportunity to interact with instructors and with fellow students (both on campus as well as online) through Canvas, a campus-wide learning management system. The class lectures, notes, and discussions are posted on Canvas for all students' access.
All students may enroll in online courses without an obligation to join the online program. If you reside in Michigan and seek the flexibility to blend on-campus and web-based courses, consider applying to our regular program. You will be able to register for as many online courses as you desire. Please contact the graduate programs coordinator for more information.
The program requires at least 30 semester hours of graduate coursework selected in accordance with the chosen concentration area. A minimum cumulative GPA of 3.0 or higher is required for good academic standing and graduation. A course in which a grade lower than C is earned cannot be used to fulfill the degree requirements.
The completed coursework must include:
The core is intended to provide unified graduate-level preparation in interdisciplinary topics.
It consists of two required core courses (6 credit hours) and at least two elective core courses (6 credit hours) selected based on the student’s background and concentration area. One additional elective core course (3 credit hours) can be taken, with the credits applied to the concentration requirement.
Two of the elective courses (AENG 505 and AENG 510) marked by * are required for the students pursuing the concentrations of vehicle electrification and intelligent vehicle systems, whose background is not closely related to electrical engineering.
Each student is required to declare one of the concentrations listed below. If a topic-based concentration is selected, a student has to take at least four courses from the concentration list. The other two courses can be taken from the selected concentration area, from another concentration area, or from the elective core courses (not more than one course).
Students whose background is not closely related to electrical engineering major must take AENG 505 (Introduction to Embedded Systems) and AENG 510 (Vehicle Electronics I) before taking the courses in the vehicle electrification concentration.
Students whose background is not closely related to electrical engineering major must take AENG 505 (Introduction to Embedded Systems), AENG 510 (Vehicle Electronics I) and AENG xxx (Programming for Autonomous Vehicles) before taking the listed courses in the intelligent vehicle systems concentration
Students with interests, which cannot be matched by any of the aforementioned concentrations, have an option of pursuing the general study concentration. Any combination of the courses approved for the other concentrations can be used to satisfy the concentration area requirement.
A student may elect a master’s thesis (6 credit hours) or a capstone design project (3 or 6 credit hours) in lieu of coursework in the concentration area. Capstone project and thesis must be conducted under the guidance of a faculty advisor. A thesis is an individual work leading to new knowledge. A capstone project can be individual or team work and, typically, is an effort to apply the knowledge acquired in the program’s courses to the solution of a real-life problem. The enrollment requires approval by the faculty advisor and special permission by Department.
Mechanical engineering.
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Fabrication and Characterization of Electrical Energy Storage and Harvesting Energy Devices Using Gel Electrolytes, Belqasem Aljafari. PDF. Phasor Measurement Unit Data-Based Steady State and Dynamic Model Estimation, Anas Almunif. PDF. Cross Layer-based Intrusion Detection System Using Machine Learning for MANETs, Amar Amouri. PDF
Top Research Topics for Electrical Engineering Students. For your convenience, we have compiled here a list of the top 100 electrical engineering project ideas in 2021. Distance Locator for an underground cable fault. An analysis of battery energy storage (BES) systems financial incentive policies. Photovoltaic conversion efficiency improvement ...
1.1 Smart Grids and Micro-grids. a. Distributed control strategies for micro-grid management. b. Blockchain applications for secure energy transactions in smart grids. c. Resilience and robustness enhancement in smart grid systems against cyber threats. d. Integration of renewable energy sources in micro-grids. e.
Measuring the Electrical Properties of 3D Printed Plastics in the W-Band, Noah Gregory. PDF. Signal Analysis of Photovoltaic Systems for Multilevel Cybersecurity, Wesley G. Schwartz. PDF. Design of a Bandgap Voltage Reference, Nicolaus Vail. Theses from 2021 PDF
Quantized State Simulation of Electrical Power Systems, Joseph Micah Hood. PDF. Circularly-shifted Chirps For Triple Functionality: Communications, Radar, And Computation, Safi Shams Muhtasimul Hoque. PDF. Optimization of Ultrawide Bandgap Semiconductor Materials for Heterostructure Field Effect Transistors (HFETs), Mohi Uddin Jewel. PDF
2014 Dissertation Titles. Design and Analysis of Large Scale Antenna Systems. Optoelectronics Using Carbon Nanotube Field Effect Transistor. Causality and Consistency in Electrophysiological Signals. A Computational Framework for Diversity in Ensembles of Humans and Machine Systems. Measuring Functional Connectivity of the Brain from ...
Electrical Engineering: Ph.D. Dissertation Topics • Noise Aware Methods for Robust Speech Processing Applications, P.I:Shrikanth Narayanan, Professor • Physics and applications of energetic electrons resulting from nanosecond-scale transient plasma, P.I: Martin Gundersen, Professor • Automatic Conversion from Flip-Flop to 3-Phase Latch-Based Designs, P.I:Peter Beerel,
An electrical engineering thesis topic sponsored by a company; The procedure for selecting an engineering thesis topic is well explained in the link. However, you should put in mind that the electrical engineering thesis topic selected should be a topic that you find interesting and you should have access to all materials and equipment ...
2017. Sachi Jayasuriya, "Modeling and Analysis of Information-Embedded Power Electronic Converter Systems" Ph.D. Thesis, May 2017. Edwin J. John, "Experimental Testbed for Load Control on an AC/DC Microgrid" M.S. Thesis, September 2017. 2016. Jonathan Berardino, "Modeling and Analysis of Commercial Building Electrical Loads for Demand Side Management," Ph.D. Thesis, December 2016.
Massachusetts, Department of Electrical Engineering and Computer Science". ii. The degree(s) for which the thesis research is intended. iii. The tentative title of the thesis, limited, if possible, to eight words or less. iv. Your name, mailing address, and signature. v. The date of submission of the proposal and the expected date of completion ...
Theses and dissertations published by graduate students in the Department of Electrical and Computer Engineering, College of Engineering, Old Dominion University since Fall 2016 are available in this collection. Backfiles of all dissertations (and some theses) have also been added. ... Thesis: Design and Analysis of Electrical Power and ...
Electrical and Electronics Engineering Career Development. Electronics engineering is the branch of electrical engineering, which deals with the uses of "the electromagnetic spectrum and with the application of such electronic devices as integrated circuits, transistors, and vacuum tubes". Mechanical and Electrical Engineering Branches.
Thesis submitted to the faculty of the Virginia Polytechnic Institute and State University in partial fulfillment of the requirements for the degree of . Master of Science . In . Electrical Engineering . Dushan Boroyevich . Rolando P. Burgos . Igor Cvetkovic . December 17th, 2021 . Arlington, VA
Electrical Engineering Theses and Dissertations . Follow. Theses/Dissertations from 2024 PDF. UAV-X Communication: Empirical Characterization and Performance Optimization, Muhammad Hashir Syed. PDF. A 1.1GS/s 12-bit single-channel pipelined-SAR ADC with an improved CDAC implementation and adaptive interstage redundancy, Xianshan Wen. PDF.
The Department of Electrical Engineering offers qualified MS students the option to write a Master's Thesis. This option is introduced to encourage students to gain hands-on research experience during their MS studies, and a high-quality thesis document can be a valuable asset in job searches or applications to PhD programs.
Articles & Research Databases Literature on your research topic and direct access to articles online, when available at UW. E-Journals Alphabetical list of electronic journal titles held at UW. ... Search by author's name or browse EE dissertations & theses by typing in "thesis electrical engineering." EE dissertations & theses are shelved on ...
Electrical Engineering Dissertation Topics. Electrical engineering is focused on the design, development, testing, supervision and the manufacturing of electrical equipment. Electrical engineers design the electrical systems of automobiles, aircrafts, power generation equipment, communications systems, radar and navigational systems.
Theses in the Library. There is a selection of Electrical & Electronic Engineering related theses in the library. They are shelved in subject and date order in cabinets in the library. Folders listing titles and authors are held at the Library Desk. Browse through these to find topics of interest to you.
DSpace at UMass is a digital repository for theses and dissertations by students in the electrical and computer engineering department.
Electrical Engineering; Electrical Engineering Items (Sorted by Submit Date in Descending order): 1 to 20 of 310 next > Issue Date Title Author(s) 2024: Toward injection lasing in halide perovskite semiconductors ... Topics in Low-Rank Markov Decision Process: Applications in Policy Gradient, Model Estimation and Markov Games: Ni, Chengzhuo:
These hand-picked innovative Electrical Projects are simple as well as interesting and contain a few mini projects too. The EEE Students can use these project kits as their final year project. Recommended: Mini Projects for Engineers. The list contains a total of 35+ Electrical projects for engineering students.
The M.S. is a research-based master's that requires a final thesis defense. ... Our electrical engineering program is known throughout industry and academia as a source of outstanding engineers and researchers. Our faculty maintain this reputation by continually updating curricula to reflect current scientific and technological advances and ...
r/ElectricalEngineering. r/ElectricalEngineering. • 4 yr. ago. PtrickStr. I need a topic for thesis. EE. Can someone give me a simple thesis topic that a simple EE student like us can do. We're having a hard time since most of our ideas are already taken. I am thinking of an app where it can track the electricity losses of an appliance.
Electrical Engineering projects, thesis, seminars and termpapers topic and materials Popular Papers/Topics Design and construction of 36W automatic solar street light using Solar panel, charge controller, led and with battery
Graduate Coordinator: Dr. Lesley Strawderman. 260 McCain Hall Box 9571 Mississippi State, MS 39762 Telephone: 662-325-7214 E-mail: [email protected]. An Interdisciplinary Curriculum. The Ph.D. in Engineering with concentration in Engineering Education (ENE) incorporates theory and practice so that its students are prepared to be teachers and scholars in the emerging field of ...
For students with special interests not matched by any of these areas, a General Study concentration is available. To gain in-depth engineering design or research experience, students can complete a capstone project or a master's thesis. Almost all classes are offered as a combination of on-campus lectures and online asynchronous instruction.
On June 7, 2024, the School of STEM hosted the spring undergraduate STEM Symposium for students to showcase their research and work from the quarter across all four STEM divisions: Biological Sciences, Computing & Software Systems (CSS), Engineering & Mathematics (E&M), and Physical Sciences (PSD). The School of STEM hosted its inaugural award recognition ceremony and recognized students and ...