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research paper topics about robotics

Three essential books on warehouse robotics

Open-knowledge robotics (ok-robot) – bridging the gap between vision and action, revolutionizing robotics: an exclusive interview with elad inbar on the future…, how robots are improving warehouse security, education in virtual worlds: the college classroom of tomorrow, unveiling the future of multi-biomarker analytics – interview with ash anwar…, everything tech: how technology has evolved and how to keep up…, state-by-state employment trends in the us – insights from unmudl’s ceo…, difference between merchant cash advances and business loans, exploring the dynamics of seo in digital marketing strategy, the rise of cryptocurrencies in africa: trends and opportunities.

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500 research papers and projects in robotics – Free Download

research paper topics about robotics

The recent history of robotics is full of fascinating moments that accelerated the rapid technological advances in artificial intelligence , automation , engineering, energy storage, and machine learning. The result transformed the capabilities of robots and their ability to take over tasks once carried out by humans at factories, hospitals, farms, etc.

These technological advances don’t occur overnight; they require several years of research and development in solving some of the biggest engineering challenges in navigation, autonomy, AI and machine learning to build robots that are much safer and efficient in a real-world situation. A lot of universities, institutes, and companies across the world are working tirelessly in various research areas to make this reality.

In this post, we have listed 500+ recent research papers and projects for those who are interested in robotics. These free, downloadable research papers can shed lights into the some of the complex areas in robotics such as navigation, motion planning, robotic interactions, obstacle avoidance, actuators, machine learning, computer vision, artificial intelligence, collaborative robotics, nano robotics, social robotics, cloud, swan robotics, sensors, mobile robotics, humanoid, service robots, automation, autonomous, etc. Feel free to download. Share your own research papers with us to be added into this list. Also, you can ask a professional academic writer from  CustomWritings – research paper writing service  to assist you online on any related topic.

Navigation and Motion Planning

  • Robotics Navigation Using MPEG CDVS
  • Design, Manufacturing and Test of a High-Precision MEMS Inclination Sensor for Navigation Systems in Robot-assisted Surgery
  • Motion Control of a Three Active Wheeled Mobile Robot and Collision-Free Human Following Navigation in Outdoor Environment
  • One Point Perspective Vanishing Point Estimation for Mobile Robot Vision Based Navigation System
  • Application of Ant Colony Optimization for finding the Navigational path of Mobile Robot-A Review
  • Robot Navigation Using a Brain-Computer Interface
  • Path Generation for Robot Navigation using a Single Ceiling Mounted Camera
  • Exact Robot Navigation Using Power Diagrams
  • Learning Socially Normative Robot Navigation Behaviors with Bayesian Inverse Reinforcement Learning
  • Pipelined, High Speed, Low Power Neural Network Controller for Autonomous Mobile Robot Navigation Using FPGA
  • Proxemics models for human-aware navigation in robotics: Grounding interaction and personal space models in experimental data from psychology
  • Optimality and limit behavior of the ML estimator for Multi-Robot Localization via GPS and Relative Measurements
  • Aerial Robotics: Compact groups of cooperating micro aerial vehicles in clustered GPS denied environment
  • Disordered and Multiple Destinations Path Planning Methods for Mobile Robot in Dynamic Environment
  • Integrating Modeling and Knowledge Representation for Combined Task, Resource and Path Planning in Robotics
  • Path Planning With Kinematic Constraints For Robot Groups
  • Robot motion planning for pouring liquids
  • Implan: Scalable Incremental Motion Planning for Multi-Robot Systems
  • Equilibrium Motion Planning of Humanoid Climbing Robot under Constraints
  • POMDP-lite for Robust Robot Planning under Uncertainty
  • The RoboCup Logistics League as a Benchmark for Planning in Robotics
  • Planning-aware communication for decentralised multi- robot coordination
  • Combined Force and Position Controller Based on Inverse Dynamics: Application to Cooperative Robotics
  • A Four Degree of Freedom Robot for Positioning Ultrasound Imaging Catheters
  • The Role of Robotics in Ovarian Transposition
  • An Implementation on 3D Positioning Aquatic Robot

Robotic Interactions

  • On Indexicality, Direction of Arrival of Sound Sources and Human-Robot Interaction
  • OpenWoZ: A Runtime-Configurable Wizard-of-Oz Framework for Human-Robot Interaction
  • Privacy in Human-Robot Interaction: Survey and Future Work
  • An Analysis Of Teacher-Student Interaction Patterns In A Robotics Course For Kindergarten Children: A Pilot Study
  • Human Robotics Interaction (HRI) based Analysis–using DMT
  • A Cautionary Note on Personality (Extroversion) Assessments in Child-Robot Interaction Studies
  • Interaction as a bridge between cognition and robotics
  • State Representation Learning in Robotics: Using Prior Knowledge about Physical Interaction
  • Eliciting Conversation in Robot Vehicle Interactions
  • A Comparison of Avatar, Video, and Robot-Mediated Interaction on Users’ Trust in Expertise
  • Exercising with Baxter: Design and Evaluation of Assistive Social-Physical Human- Robot Interaction
  • Using Narrative to Enable Longitudinal Human- Robot Interactions
  • Computational Analysis of Affect, Personality, and Engagement in HumanRobot Interactions
  • Human-robot interactions: A psychological perspective
  • Gait of Quadruped Robot and Interaction Based on Gesture Recognition
  • Graphically representing child- robot interaction proxemics
  • Interactive Demo of the SOPHIA Project: Combining Soft Robotics and Brain-Machine Interfaces for Stroke Rehabilitation
  • Interactive Robotics Workshop
  • Activating Robotics Manipulator using Eye Movements
  • Wireless Controlled Robot Movement System Desgined using Microcontroller
  • Gesture Controlled Robot using LabVIEW
  • RoGuE: Robot Gesture Engine

Obstacle Avoidance

  • Low Cost Obstacle Avoidance Robot with Logic Gates and Gate Delay Calculations
  • Advanced Fuzzy Potential Field Method for Mobile Robot Obstacle Avoidance
  • Controlling Obstacle Avoiding And Live Streaming Robot Using Chronos Watch
  • Movement Of The Space Robot Manipulator In Environment With Obstacles
  • Assis-Cicerone Robot With Visual Obstacle Avoidance Using a Stack of Odometric Data.
  • Obstacle detection and avoidance methods for autonomous mobile robot
  • Moving Domestic Robotics Control Method Based on Creating and Sharing Maps with Shortest Path Findings and Obstacle Avoidance
  • Control of the Differentially-driven Mobile Robot in the Environment with a Non-Convex Star-Shape Obstacle: Simulation and Experiments
  • A survey of typical machine learning based motion planning algorithms for robotics
  • Linear Algebra for Computer Vision, Robotics , and Machine Learning
  • Applying Radical Constructivism to Machine Learning: A Pilot Study in Assistive Robotics
  • Machine Learning for Robotics and Computer Vision: Sampling methods and Variational Inference
  • Rule-Based Supervisor and Checker of Deep Learning Perception Modules in Cognitive Robotics
  • The Limits and Potentials of Deep Learning for Robotics
  • Autonomous Robotics and Deep Learning
  • A Unified Knowledge Representation System for Robot Learning and Dialogue

Computer Vision

  • Computer Vision Based Chess Playing Capabilities for the Baxter Humanoid Robot
  • Non-Euclidean manifolds in robotics and computer vision: why should we care?
  • Topology of singular surfaces, applications to visualization and robotics
  • On the Impact of Learning Hierarchical Representations for Visual Recognition in Robotics
  • Focused Online Visual-Motor Coordination for a Dual-Arm Robot Manipulator
  • Towards Practical Visual Servoing in Robotics
  • Visual Pattern Recognition In Robotics
  • Automated Visual Inspection: Position Identification of Object for Industrial Robot Application based on Color and Shape
  • Automated Creation of Augmented Reality Visualizations for Autonomous Robot Systems
  • Implementation of Efficient Night Vision Robot on Arduino and FPGA Board
  • On the Relationship between Robotics and Artificial Intelligence
  • Artificial Spatial Cognition for Robotics and Mobile Systems: Brief Survey and Current Open Challenges
  • Artificial Intelligence, Robotics and Its Impact on Society
  • The Effects of Artificial Intelligence and Robotics on Business and Employment: Evidence from a survey on Japanese firms
  • Artificially Intelligent Maze Solver Robot
  • Artificial intelligence, Cognitive Robotics and Human Psychology
  • Minecraft as an Experimental World for AI in Robotics
  • Impact of Robotics, RPA and AI on the insurance industry: challenges and opportunities

Probabilistic Programming

  • On the use of probabilistic relational affordance models for sequential manipulation tasks inrobotics
  • Exploration strategies in developmental robotics: a unified probabilistic framework
  • Probabilistic Programming for Robotics
  • New design of a soft-robotics wearable elbow exoskeleton based on Shape Memory Alloy wires actuators
  • Design of a Modular Series Elastic Upgrade to a Robotics Actuator
  • Applications of Compliant Actuators to Wearing Robotics for Lower Extremity
  • Review of Development Stages in the Conceptual Design of an Electro-Hydrostatic Actuator for Robotics
  • Fluid electrodes for submersible robotics based on dielectric elastomer actuators
  • Cascaded Control Of Compliant Actuators In Friendly Robotics

Collaborative Robotics

  • Interpretable Models for Fast Activity Recognition and Anomaly Explanation During Collaborative Robotics Tasks
  • Collaborative Work Management Using SWARM Robotics
  • Collaborative Robotics : Assessment of Safety Functions and Feedback from Workers, Users and Integrators in Quebec
  • Accessibility, Making and Tactile Robotics : Facilitating Collaborative Learning and Computational Thinking for Learners with Visual Impairments
  • Trajectory Adaptation of Robot Arms for Head-pose Dependent Assistive Tasks

Mobile Robotics

  • Experimental research of proximity sensors for application in mobile robotics in greenhouse environment.
  • Multispectral Texture Mapping for Telepresence and Autonomous Mobile Robotics
  • A Smart Mobile Robot to Detect Abnormalities in Hazardous Zones
  • Simulation of nonlinear filter based localization for indoor mobile robot
  • Integrating control science in a practical mobile robotics course
  • Experimental Study of the Performance of the Kinect Range Camera for Mobile Robotics
  • Planification of an Optimal Path for a Mobile Robot Using Neural Networks
  • Security of Networking Control System in Mobile Robotics (NCSMR)
  • Vector Maps in Mobile Robotics
  • An Embedded System for a Bluetooth Controlled Mobile Robot Based on the ATmega8535 Microcontroller
  • Experiments of NDT-Based Localization for a Mobile Robot Moving Near Buildings
  • Hardware and Software Co-design for the EKF Applied to the Mobile Robotics Localization Problem
  • Design of a SESLogo Program for Mobile Robot Control
  • An Improved Ekf-Slam Algorithm For Mobile Robot
  • Intelligent Vehicles at the Mobile Robotics Laboratory, University of Sao Paolo, Brazil [ITS Research Lab]
  • Introduction to Mobile Robotics
  • Miniature Piezoelectric Mobile Robot driven by Standing Wave
  • Mobile Robot Floor Classification using Motor Current and Accelerometer Measurements
  • Sensors for Robotics 2015
  • An Automated Sensing System for Steel Bridge Inspection Using GMR Sensor Array and Magnetic Wheels of Climbing Robot
  • Sensors for Next-Generation Robotics
  • Multi-Robot Sensor Relocation To Enhance Connectivity In A WSN
  • Automated Irrigation System Using Robotics and Sensors
  • Design Of Control System For Articulated Robot Using Leap Motion Sensor
  • Automated configuration of vision sensor systems for industrial robotics

Nano robotics

  • Light Robotics: an all-optical nano-and micro-toolbox
  • Light-driven Nano- robotics
  • Light-driven Nano-robotics
  • Light Robotics: a new tech–nology and its applications
  • Light Robotics: Aiming towards all-optical nano-robotics
  • NanoBiophotonics Appli–cations of Light Robotics
  • System Level Analysis for a Locomotive Inspection Robot with Integrated Microsystems
  • High-Dimensional Robotics at the Nanoscale Kino-Geometric Modeling of Proteins and Molecular Mechanisms
  • A Study Of Insect Brain Using Robotics And Neural Networks

Social Robotics

  • Integrative Social Robotics Hands-On
  • ProCRob Architecture for Personalized Social Robotics
  • Definitions and Metrics for Social Robotics, along with some Experience Gained in this Domain
  • Transmedia Choreography: Integrating Multimodal Video Annotation in the Creative Process of a Social Robotics Performance Piece
  • Co-designing with children: An approach to social robot design
  • Toward Social Cognition in Robotics: Extracting and Internalizing Meaning from Perception
  • Human Centered Robotics : Designing Valuable Experiences for Social Robots
  • Preliminary system and hardware design for Quori, a low-cost, modular, socially interactive robot
  • Socially assistive robotics: Human augmentation versus automation
  • Tega: A Social Robot

Humanoid robot

  • Compliance Control and Human-Robot Interaction – International Journal of Humanoid Robotics
  • The Design of Humanoid Robot Using C# Interface on Bluetooth Communication
  • An Integrated System to approach the Programming of Humanoid Robotics
  • Humanoid Robot Slope Gait Planning Based on Zero Moment Point Principle
  • Literature Review Real-Time Vision-Based Learning for Human-Robot Interaction in Social Humanoid Robotics
  • The Roasted Tomato Challenge for a Humanoid Robot
  • Remotely teleoperating a humanoid robot to perform fine motor tasks with virtual reality

Cloud Robotics

  • CR3A: Cloud Robotics Algorithms Allocation Analysis
  • Cloud Computing and Robotics for Disaster Management
  • ABHIKAHA: Aerial Collision Avoidance in Quadcopter using Cloud Robotics
  • The Evolution Of Cloud Robotics: A Survey
  • Sliding Autonomy in Cloud Robotics Services for Smart City Applications
  • CORE: A Cloud-based Object Recognition Engine for Robotics
  • A Software Product Line Approach for Configuring Cloud Robotics Applications
  • Cloud robotics and automation: A survey of related work
  • ROCHAS: Robotics and Cloud-assisted Healthcare System for Empty Nester

Swarm Robotics

  • Evolution of Task Partitioning in Swarm Robotics
  • GESwarm: Grammatical Evolution for the Automatic Synthesis of Collective Behaviors in Swarm Robotics
  • A Concise Chronological Reassess Of Different Swarm Intelligence Methods With Multi Robotics Approach
  • The Swarm/Potential Model: Modeling Robotics Swarms with Measure-valued Recursions Associated to Random Finite Sets
  • The TAM: ABSTRACTing complex tasks in swarm robotics research
  • Task Allocation in Foraging Robot Swarms: The Role of Information Sharing
  • Robotics on the Battlefield Part II
  • Implementation Of Load Sharing Using Swarm Robotics
  • An Investigation of Environmental Influence on the Benefits of Adaptation Mechanisms in Evolutionary Swarm Robotics

Soft Robotics

  • Soft Robotics: The Next Generation of Intelligent Machines
  • Soft Robotics: Transferring Theory to Application,” Soft Components for Soft Robots”
  • Advances in Soft Computing, Intelligent Robotics and Control
  • The BRICS Component Model: A Model-Based Development Paradigm For ComplexRobotics Software Systems
  • Soft Mechatronics for Human-Friendly Robotics
  • Seminar Soft-Robotics
  • Special Issue on Open Source Software-Supported Robotics Research.
  • Soft Brain-Machine Interfaces for Assistive Robotics: A Novel Control Approach
  • Towards A Robot Hardware ABSTRACT ion Layer (R-HAL) Leveraging the XBot Software Framework

Service Robotics

  • Fundamental Theories and Practice in Service Robotics
  • Natural Language Processing in Domestic Service Robotics
  • Localization and Mapping for Service Robotics Applications
  • Designing of Service Robot for Home Automation-Implementation
  • Benchmarking Speech Understanding in Service Robotics
  • The Cognitive Service Robotics Apartment
  • Planning with Task-oriented Knowledge Acquisition for A Service Robot
  • Cognitive Robotics
  • Meta-Morphogenesis theory as background to Cognitive Robotics and Developmental Cognitive Science
  • Experience-based Learning for Bayesian Cognitive Robotics
  • Weakly supervised strategies for natural object recognition in robotics
  • Robotics-Derived Requirements for the Internet of Things in the 5G Context
  • A Comparison of Modern Synthetic Character Design and Cognitive Robotics Architecture with the Human Nervous System
  • PREGO: An Action Language for Belief-Based Cognitive Robotics in Continuous Domains
  • The Role of Intention in Cognitive Robotics
  • On Cognitive Learning Methodologies for Cognitive Robotics
  • Relational Enhancement: A Framework for Evaluating and Designing Human-RobotRelationships
  • A Fog Robotics Approach to Deep Robot Learning: Application to Object Recognition and Grasp Planning in Surface Decluttering
  • Spatial Cognition in Robotics
  • IOT Based Gesture Movement Recognize Robot
  • Deliberative Systems for Autonomous Robotics: A Brief Comparison Between Action-oriented and Timelines-based Approaches
  • Formal Modeling and Verification of Dynamic Reconfiguration of Autonomous RoboticsSystems
  • Robotics on its feet: Autonomous Climbing Robots
  • Implementation of Autonomous Metal Detection Robot with Image and Message Transmission using Cell Phone
  • Toward autonomous architecture: The convergence of digital design, robotics, and the built environment
  • Advances in Robotics Automation
  • Data-centered Dependencies and Opportunities for Robotics Process Automation in Banking
  • On the Combination of Gamification and Crowd Computation in Industrial Automation and Robotics Applications
  • Advances in RoboticsAutomation
  • Meshworm With Segment-Bending Anchoring for Colonoscopy. IEEE ROBOTICS AND AUTOMATION LETTERS. 2 (3) pp: 1718-1724.
  • Recent Advances in Robotics and Automation
  • Key Elements Towards Automation and Robotics in Industrialised Building System (IBS)
  • Knowledge Building, Innovation Networks, and Robotics in Math Education
  • The potential of a robotics summer course On Engineering Education
  • Robotics as an Educational Tool: Impact of Lego Mindstorms
  • Effective Planning Strategy in Robotics Education: An Embodied Approach
  • An innovative approach to School-Work turnover programme with Educational Robotics
  • The importance of educational robotics as a precursor of Computational Thinking in early childhood education
  • Pedagogical Robotics A way to Experiment and Innovate in Educational Teaching in Morocco
  • Learning by Making and Early School Leaving: an Experience with Educational Robotics
  • Robotics and Coding: Fostering Student Engagement
  • Computational Thinking with Educational Robotics
  • New Trends In Education Of Robotics
  • Educational robotics as an instrument of formation: a public elementary school case study
  • Developmental Situation and Strategy for Engineering Robot Education in China University
  • Towards the Humanoid Robot Butler
  • YAGI-An Easy and Light-Weighted Action-Programming Language for Education and Research in Artificial Intelligence and Robotics
  • Simultaneous Tracking and Reconstruction (STAR) of Objects and its Application in Educational Robotics Laboratories
  • The importance and purpose of simulation in robotics
  • An Educational Tool to Support Introductory Robotics Courses
  • Lollybot: Where Candy, Gaming, and Educational Robotics Collide
  • Assessing the Impact of an Autonomous Robotics Competition for STEM Education
  • Educational robotics for promoting 21st century skills
  • New Era for Educational Robotics: Replacing Teachers with a Robotic System to Teach Alphabet Writing
  • Robotics as a Learning Tool for Educational Transformation
  • The Herd of Educational Robotic Devices (HERD): Promoting Cooperation in RoboticsEducation
  • Robotics in physics education: fostering graphing abilities in kinematics
  • Enabling Rapid Prototyping in K-12 Engineering Education with BotSpeak, a UniversalRobotics Programming Language
  • Innovating in robotics education with Gazebo simulator and JdeRobot framework
  • How to Support Students’ Computational Thinking Skills in Educational Robotics Activities
  • Educational Robotics At Lower Secondary School
  • Evaluating the impact of robotics in education on pupils’ skills and attitudes
  • Imagining, Playing, and Coding with KIBO: Using Robotics to Foster Computational Thinking in Young Children
  • How Does a First LEGO League Robotics Program Provide Opportunities for Teaching Children 21st Century Skills
  • A Software-Based Robotic Vision Simulator For Use In Teaching Introductory Robotics Courses
  • Robotics Practical
  • A project-based strategy for teaching robotics using NI’s embedded-FPGA platform
  • Teaching a Core CS Concept through Robotics
  • Ms. Robot Will Be Teaching You: Robot Lecturers in Four Modes of Automated Remote Instruction
  • Robotic Competitions: Teaching Robotics and Real-Time Programming with LEGO Mindstorms
  • Visegrad Robotics Workshop-different ideas to teach and popularize robotics
  • LEGO® Mindstorms® EV3 Robotics Instructor Guide
  • DRAFT: for Automaatiop iv t22 MOKASIT: Multi Camera System for Robotics Monitoring and Teaching
  • MOKASIT: Multi Camera System for Robotics Monitoring and Teaching
  • Autonomous Robot Design and Build: Novel Hands-on Experience for Undergraduate Students
  • Semi-Autonomous Inspection Robot
  • Sumo Robot Competition
  • Engagement of students with Robotics-Competitions-like projects in a PBL Bsc Engineering course
  • Robo Camp K12 Inclusive Outreach Program: A three-step model of Effective Introducing Middle School Students to Computer Programming and Robotics
  • The Effectiveness of Robotics Competitions on Students’ Learning of Computer Science
  • Engaging with Mathematics: How mathematical art, robotics and other activities are used to engage students with university mathematics and promote
  • Design Elements of a Mobile Robotics Course Based on Student Feedback
  • Sixth-Grade Students’ Motivation and Development of Proportional Reasoning Skills While Completing Robotics Challenges
  • Student Learning of Computational Thinking in A Robotics Curriculum: Transferrable Skills and Relevant Factors
  • A Robotics-Focused Instructional Framework for Design-Based Research in Middle School Classrooms
  • Transforming a Middle and High School Robotics Curriculum
  • Geometric Algebra for Applications in Cybernetics: Image Processing, Neural Networks, Robotics and Integral Transforms
  • Experimenting and validating didactical activities in the third year of primary school enhanced by robotics technology


  • Bibliometric analysis on the status quo of robotics in construction
  • AtomMap: A Probabilistic Amorphous 3D Map Representation for Robotics and Surface Reconstruction
  • Robotic Design and Construction Culture: Ethnography in Osaka University’s Miyazaki Robotics Lab
  • Infrastructure Robotics: A Technology Enabler for Lunar In-Situ Resource Utilization, Habitat Construction and Maintenance
  • A Planar Robot Design And Construction With Maple
  • Robotics and Automations in Construction: Advanced Construction and FutureTechnology
  • Why robotics in mining
  • Examining Influences on the Evolution of Design Ideas in a First-Year Robotics Project
  • Mining Robotics
  • TIRAMISU: Technical survey, close-in-detection and disposal mine actions in Humanitarian Demining: challenges for Robotics Systems
  • Robotics for Sustainable Agriculture in Aquaponics
  • Design and Fabrication of Crop Analysis Agriculture Robot
  • Enhance Multi-Disciplinary Experience for Agriculture and Engineering Students with Agriculture Robotics Project
  • Work in progress: Robotics mapping of landmine and UXO contaminated areas
  • Robot Based Wireless Monitoring and Safety System for Underground Coal Mines using Zigbee Protocol: A Review
  • Minesweepers uses robotics’ awesomeness to raise awareness about landminesexplosive remnants of war
  • Intelligent Autonomous Farming Robot with Plant Disease Detection using Image Processing
  • Auotomatic Pick And Place Robot
  • Video Prompting to Teach Robotics and Coding to Students with Autism Spectrum Disorder
  • Bilateral Anesthesia Mumps After RobotAssisted Hysterectomy Under General Anesthesia: Two Case Reports
  • Future Prospects of Artificial Intelligence in Robotics Software, A healthcare Perspective
  • Designing new mechanism in surgical robotics
  • Open-Source Research Platforms and System Integration in Modern Surgical Robotics
  • Soft Tissue Robotics–The Next Generation
  • CORVUS Full-Body Surgical Robotics Research Platform
  • OP: Sense, a rapid prototyping research platform for surgical robotics
  • Preoperative Planning Simulator with Haptic Feedback for Raven-II Surgical Robotics Platform
  • Origins of Surgical Robotics: From Space to the Operating Room
  • Accelerometer Based Wireless Gesture Controlled Robot for Medical Assistance using Arduino Lilypad
  • The preliminary results of a force feedback control for Sensorized Medical Robotics
  • Medical robotics Regulatory, ethical, and legal considerations for increasing levels of autonomy
  • Robotics in General Surgery
  • Evolution Of Minimally Invasive Surgery: Conventional Laparoscopy Torobotics
  • Robust trocar detection and localization during robot-assisted endoscopic surgery
  • How can we improve the Training of Laparoscopic Surgery thanks to the Knowledge in Robotics
  • Discussion on robot-assisted laparoscopic cystectomy and Ileal neobladder surgery preoperative care
  • Robotics in Neurosurgery: Evolution, Current Challenges, and Compromises
  • Hybrid Rendering Architecture for Realtime and Photorealistic Simulation of Robot-Assisted Surgery
  • Robotics, Image Guidance, and Computer-Assisted Surgery in Otology/Neurotology
  • Neuro-robotics model of visual delusions
  • Neuro-Robotics
  • Robotics in the Rehabilitation of Neurological Conditions
  • What if a Robot Could Help Me Care for My Parents
  • A Robot to Provide Support in Stigmatizing Patient-Caregiver Relationships
  • A New Skeleton Model and the Motion Rhythm Analysis for Human Shoulder Complex Oriented to Rehabilitation Robotics
  • Towards Rehabilitation Robotics: Off-The-Shelf BCI Control of Anthropomorphic Robotic Arms
  • Rehabilitation Robotics 2013
  • Combined Estimation of Friction and Patient Activity in Rehabilitation Robotics
  • Brain, Mind and Body: Motion Behaviour Planning, Learning and Control in view of Rehabilitation and Robotics
  • Reliable Robotics – Diagnostics
  • Robotics for Successful Ageing
  • Upper Extremity Robotics Exoskeleton: Application, Structure And Actuation

Defence and Military

  • Voice Guided Military Robot for Defence Application
  • Design and Control of Defense Robot Based On Virtual Reality
  • AI, Robotics and Cyber: How Much will They Change Warfare
  • Brain Controlled Robot for Indian Armed Force
  • Autonomous Military Robotics
  • Wireless Restrained Military Discoursed Robot
  • Bomb Detection And Defusion In Planes By Application Of Robotics
  • Impacts Of The Robotics Age On Naval Force Design, Effectiveness, And Acquisition

Space Robotics

  • Lego robotics teacher professional learning
  • New Planar Air-bearing Microgravity Simulator for Verification of Space Robotics Numerical Simulations and Control Algorithms
  • The Artemis Rover as an Example for Model Based Engineering in Space Robotics
  • Rearrangement planning using object-centric and robot-centric action spaces
  • Model-based Apprenticeship Learning for Robotics in High-dimensional Spaces
  • Emergent Roles, Collaboration and Computational Thinking in the Multi-Dimensional Problem Space of Robotics
  • Reaction Null Space of a multibody system with applications in robotics

Other Industries

  • Robotics in clothes manufacture
  • Recent Trends in Robotics and Computer Integrated Manufacturing: An Overview
  • Application Of Robotics In Dairy And Food Industries: A Review
  • Architecture for theatre robotics
  • Human-multi-robot team collaboration for efficent warehouse operation
  • A Robot-based Application for Physical Exercise Training
  • Application Of Robotics In Oil And Gas Refineries
  • Implementation of Robotics in Transmission Line Monitoring
  • Intelligent Wireless Fire Extinguishing Robot
  • Monitoring and Controlling of Fire Fighthing Robot using IOT
  • Robotics An Emerging Technology in Dairy Industry
  • Robotics and Law: A Survey
  • Increasing ECE Student Excitement through an International Marine Robotics Competition
  • Application of Swarm Robotics Systems to Marine Environmental Monitoring

Future of Robotics / Trends

  • The future of Robotics Technology
  • RoboticsAutomation Are Killing Jobs A Roadmap for the Future is Needed
  • The next big thing (s) in robotics
  • Robotics in Indian Industry-Future Trends
  • The Future of Robot Rescue Simulation Workshop
  • PreprintQuantum Robotics: Primer on Current Science and Future Perspectives
  • Emergent Trends in Robotics and Intelligent Systems


Revolutionizing robotics: an exclusive interview with elad inbar on the future of industry integration, revolutionizing contactless food prep with robotics & ai – interviewing vipin jain, ceo of blendid, how ai and robotics optimize the supply chain, do retail robots reduce theft, cnc machining, 3d printing or laser cutting: choosing the best to create robots, how do robots communicate with each other.

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IFToMM International Symposium on Robotics and Mechatronics

ISRM 2019: Robotics and Mechatronics pp 510–521 Cite as

Current Research Topics in Robotics at IGMR

  • Burkhard Corves 11 ,
  • Mathias Huesing 11 ,
  • Nils Mandischer 11 ,
  • Markus Schmitz 11 ,
  • Amirreza Shahidi 11 ,
  • Michael Lorenz 11 &
  • Sami Charaf Eddine 11  
  • Conference paper
  • First Online: 27 September 2019

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Part of the Mechanisms and Machine Science book series (Mechan. Machine Science,volume 78)

This paper gives an overview of current research topics at the Institute of Mechanism Theory, Machine Dynamics and Robotics of RWTH Aachen University. A variety of application areas is introduced, including robotic reconstruction, agile production, additive manufacturing and human-robot collaboration. Each topic offers novel and unique contributions to its field of robotics.

  • Additive manufacturing
  • Agile production
  • Human-robot-collaboration
  • Internet of robotics

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The authors would like to thank:

The German Research Foundation DFG for the kind support within the Cluster of Excellence “Internet of Production” - Project-ID: 390621612.

The European Union for the kind support within the project “Robots to Re-Construction” - Project-ID: 687593.

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Burkhard Corves, Mathias Huesing, Nils Mandischer, Markus Schmitz, Amirreza Shahidi, Michael Lorenz & Sami Charaf Eddine

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School of Mechanical, Materials, Mechatronic and Biomedical Engineering, University of Wollongong, Wollongong, NSW, Australia

Chin-Hsing Kuo

Department of Mechanical Engineering, National Taiwan University, Taipei, Taiwan

Pei-Chun Lin

Department of Mechanical Engineering, National Central University, Taoyuan City, Taiwan

Terence Essomba

Department of Mechanical and Electro-Mechanical Engineering, Tamkang University, New Taipei City, Taiwan

Guan-Chen Chen

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Corves, B. et al. (2020). Current Research Topics in Robotics at IGMR. In: Kuo, CH., Lin, PC., Essomba, T., Chen, GC. (eds) Robotics and Mechatronics. ISRM 2019. Mechanisms and Machine Science, vol 78. Springer, Cham.

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101+ Simple Robotics Research Topics For Students

Robotics Research Topics

Imagine a world where machines come to life, performing tasks on their own or assisting humans with precision and efficiency. This captivating realm is the heart of robotics—a fusion of engineering, computer science, and technology. If you’re a student eager to dive into this mesmerizing field, you’re in for an electrifying journey. 

In this blog, we’ll unravel the secrets of robotics research, highlight its significance, and unveil an array of interesting robotics research topics. These topics are perfect for middle and high school students, making the exciting world of robotics accessible to all. Let’s embark on this adventure into the future of technology and innovation!

In your quest to explore robotics, don’t forget the valuable support of services like Engineering Assignment Help . Dive into these fascinating research topics and let us assist you on your educational journey

What is Robotics Research Topic?

Table of Contents

A robotics research topic is a specific area of study within the field of robotics that students can investigate to gain a deeper understanding of how robots work and how they can be applied to various real-world problems. These topics can range from designing and building robots to exploring the algorithms and software that control them.

Research topics in robotics can be categorized into various subfields, including:

  • Mechanical Design: Studying how to design and build the physical structure of robots, including their components and materials.
  • Sensors and Perception: Investigating how robots can sense and understand their environment through sensors like cameras, infrared sensors, and ultrasonic sensors.
  • Control Systems: Exploring the algorithms and software that enable robots to move, make decisions, and interact with their surroundings.
  • Human-Robot Interaction: Researching how robots can collaborate with humans, including topics like natural language processing and gesture recognition.
  • Artificial Intelligence (AI): Studying how AI techniques can be applied to robotics, such as machine learning for object recognition and path planning.
  • Applications: Focusing on specific applications of robotics, such as medical robotics, autonomous vehicles, and industrial automation.

Why is Robotics Research Important?

Before knowing robotics research topics, you need to know the reasons for the importance of robotics research. Robotics research is crucial for several reasons:

Advancing Technology

Research in robotics leads to the development of cutting-edge technologies that can improve our daily lives, enhance productivity, and solve complex problems.

Solving Real-World Problems

Robotics can be applied to address various challenges, such as environmental monitoring, disaster response, and healthcare assistance.

Inspiring Innovation

Engaging in robotics research encourages creativity and innovation among students, fostering a passion for STEM (Science, Technology, Engineering, and Mathematics) fields.

Educational Benefits

Researching robotics topics equips students with valuable skills in problem-solving, critical thinking, and teamwork.

Career Opportunities

A strong foundation in robotics can open doors to exciting career opportunities in fields like robotics engineering, AI, and automation.

Also Read: Quantitative Research Topics for STEM Students

Easy Robotics Research Topics For Middle School Students

Let’s explore some simple robotics research topics for middle school students:

Robot Design and Building

1. How to build a simple robot using household materials.

2. Designing a robot that can pick up and sort objects.

3. Building a robot that can follow a line autonomously.

4. Creating a robot that can draw pictures.

5. Designing a robot that can mimic animal movements.

6. Building a robot that can clean and organize a messy room.

7. Designing a robot that can water plants and monitor their health.

8. Creating a robot that can navigate through a maze of obstacles.

9. Building a robot that can imitate human gestures and movements.

10. Designing a robot that can assemble a simple puzzle.

11. Developing a robot that can assist in food preparation and cooking.

Robotics in Everyday Life

1. Exploring the use of robots in home automation.

2. Designing a robot that can assist people with disabilities.

3. How can robots help with chores and housekeeping?

4. Creating a robot pet for companionship.

5. Investigating the use of robots in education.

6. Exploring the use of robots for food delivery in restaurants.

7. Designing a robot that can help with grocery shopping.

8. Creating a robot for home security and surveillance.

9. Investigating the use of robots for waste recycling.

10. Designing a robot that can assist in organizing a bookshelf.

Robot Programming

1. Learning the basics of programming a robot.

2. How to program a robot to navigate a maze.

3. Teaching a robot to respond to voice commands.

4. Creating a robot that can dance to music.

5. Programming a robot to play simple games.

6. Teaching a robot to recognize and sort recyclable materials.

7. Programming a robot to create art and paintings.

8. Developing a robot that can give weather forecasts.

9. Creating a robot that can simulate weather conditions.

10. Designing a robot that can write and print messages or drawings.

Robotics and Nature

1. Studying how robots can mimic animal behavior.

2. Designing a robot that can pollinate flowers.

3. Investigating the use of robots in wildlife conservation.

4. Creating a robot that can mimic bird flight.

5. Exploring underwater robots for marine research.

6. Investigating the use of robots in studying insect behavior.

7. Designing a robot that can monitor and report air quality.

8. Creating a robot that can mimic the sound of various birds.

9. Studying how robots can help in reforestation efforts.

10. Investigating the use of robots in studying coral reefs and marine life.

Robotics and Space

1. How do robots assist astronauts in space exploration?

2. Designing a robot for exploring other planets.

3. Investigating the use of robots in space mining.

4. Creating a robot to assist in space station maintenance.

5. Studying the challenges of robot communication in space.

6. Designing a robot for collecting samples on other planets.

7. Creating a robot that can assist in assembling space telescopes.

8. Investigating the use of robots in space agriculture.

9. Designing a robot for space debris cleanup.

10. Studying the role of robots in exploring and mapping asteroids.

These robotics research topics offer even more exciting opportunities for middle school students to explore the world of robotics and develop their research skills.

Latest Robotics Research Topics For High School Students

Let’s get started with some robotics research topics for high school students:

Advanced Robot Design

1. Developing a robot with human-like facial expressions.

2. Designing a robot with advanced mobility for rough terrains.

3. Creating a robot with a soft, flexible body.

4. Investigating the use of drones in agriculture.

5. Developing a bio-inspired robot with insect-like capabilities.

6. Designing a robot with the ability to self-repair and adapt to damage.

7. Developing a robot with advanced tactile sensing for delicate tasks.

8. Creating a robot that can navigate both underwater and on land seamlessly.

9. Investigating the use of drones in disaster response and relief efforts.

10. Designing a robot inspired by cheetahs for high-speed locomotion.

11. Developing a robot that can assist in search and rescue missions in extreme weather conditions, such as hurricanes or wildfires.

Artificial Intelligence and Robotics

1. How can artificial intelligence enhance robot decision-making?

2. Creating a robot that can recognize and respond to emotions.

3. Investigating ethical concerns in AI-driven robotics.

4. Developing a robot that can learn from its mistakes.

5. Exploring the use of machine learning in robotic vision.

6. Exploring the role of AI-driven robots in space exploration and colonization.

7. Creating a robot that can understand and respond to human emotions in healthcare.

8. Investigating the ethical implications of autonomous vehicles in urban transportation.

9. Developing a robot that can analyze and predict weather patterns using AI.

10. Exploring the use of machine learning to enhance robotic prosthetics.

Human-Robot Interaction

1. Studying the impact of robots on human mental health.

2. Designing a robot that can assist in therapy sessions.

3. Investigating the use of robots in elderly care facilities.

4. Creating a robot that can act as a language tutor.

5. Developing a robot that can provide emotional support.

6. Studying the psychological impact of humanoid robots in educational settings.

7. Designing a robot that can assist individuals with neurodegenerative diseases.

8. Investigating the use of robots for mental health therapy and counseling.

9. Creating a robot that can help children with autism improve social skills.

10. Developing a robot companion for the elderly to combat loneliness.

Robotics and Industry

1. How are robots transforming the manufacturing industry?

2. Investigating the use of robots in 3D printing.

3. Designing robots for warehouse automation.

4. Developing robots for precision agriculture.

5. Studying the role of robotics in supply chain management.

6. Exploring the integration of robots in the construction and architecture industry.

7. Investigating the use of robots for recycling and waste management in cities.

8. Designing robots for autonomous maintenance and repair of industrial equipment.

9. Developing robotic solutions for monitoring and managing urban traffic.

10. Studying the role of robotics in the development of smart factories and Industry 4.0.

Cutting-Edge Robotics Applications

1. Exploring the use of swarm robotics for search and rescue missions.

2. Investigating the potential of exoskeletons for enhancing human capabilities.

3. Designing robots for autonomous underwater exploration.

4. Developing robots for minimally invasive surgery.

5. Studying the ethical implications of autonomous military robots.

6. Exploring the use of robotics in sustainable energy production.

7. Investigating the use of swarming robots for ecological conservation and monitoring.

8. Designing exoskeletons for individuals with mobility impairments for daily life.

9. Developing robots for autonomous planetary exploration beyond our solar system.

10. Studying the ethical and legal aspects of AI-powered military robots in warfare.

These robotics research topics offer high school students the opportunity to delve deeper into advanced robotics concepts and address some of the most challenging and impactful issues in the field.

Robotics research is a captivating field with a wide range of robotics research topics suitable for students of all ages. Whether you’re in middle school or high school, you can explore robot design, programming, AI integration , and cutting-edge applications. Robotics research not only fosters innovation but also prepares you for a future where robots will play an increasingly important role in various aspects of our lives. So, pick a topic that excites you, and embark on your journey into the fascinating world of robotics!

I hope you enjoyed this blog about robotics research topics for middle and high school students.

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200+ Robotics Research Topics: Discovering Tomorrow’s Tech

Robotics Research Topics

  • Post author By admin
  • September 15, 2023

Explore cutting-edge robotics research topics and stay ahead of the curve with our comprehensive guide. Discover the latest advancements in the field today.

Robotics research topics are not like any other research topics. In these topics science fiction meets reality and innovation knows no bounds.

In this blog post we are going to explore some of the best robotics research topics that will help you to explore machine learning, artificial intelligence and many more.

Apart from that you will also explore the industries and the future of robotics. Whether you are an experienced engineering or a student of robotics, these project ideas will definitely help you to explore a lot more the dynamic and ever evolving world of robotics. So be ready to explore these topics:-

Table of Contents

Robotics Research Topics

Have a close look at robotics research topics:-

Autonomous Robots

  • Development of an Autonomous Delivery Robot for Urban Environments
  • Swarm Robotics for Agricultural Crop Monitoring and Maintenance
  • Simultaneous Localization and Mapping (SLAM) for Indoor Navigation of Service Robots
  • Human-Robot Interaction Study for Improved Robot Assistance in Healthcare
  • Self-Driving Car Prototype with Advanced Perception and Decision-Making Algorithms
  • Autonomous Aerial Surveillance Drones for Security Applications
  • Autonomous Underwater Vehicles (AUVs) for Ocean Exploration
  • Robotic Drones for Disaster Response and Search-and-Rescue Missions
  • Autonomous Exploration Rover for Planetary Surfaces
  • Unmanned Aerial Vehicles (UAVs) for Precision Agriculture and Crop Analysis

Robot Manipulation and Grasping

  • Object Recognition and Grasping Planning System for Warehouse Automation
  • Cooperative Multi-Robot Manipulation for Assembly Line Tasks
  • Tactile Sensing Integration for Precise Robotic Grasping
  • Surgical Robot with Enhanced Precision and Control for Minimally Invasive Surgery
  • Robotic System for Automated 3D Printing and Fabrication
  • Robot-Assisted Cooking System with Object Recognition and Manipulation
  • Robotic Arm for Hazardous Materials Handling and Disposal
  • Biomechanically Inspired Robotic Finger Design for Grasping
  • Multi-Arm Robotic System for Collaborative Manufacturing
  • Development of a Dexterous Robotic Hand for Complex Object

Robot Vision and Perception:

  • Object Detection and Recognition Framework for Robotic Inspection
  • Deep Learning-Based Vision System for Real-time Object Recognition
  • Human Activity Recognition Algorithm for Assistive Robots
  • Vision-Based Localization and Navigation for Autonomous Vehicles
  • Image Processing and Computer Vision for Robotic Surveillance
  • Visual Odometry for Precise Mobile Robot Positioning
  • Facial Recognition System for Human-Robot Interaction
  • 3D Object Reconstruction from 2D Images for Robotic Mapping
  • Autonomous Drone with Advanced Vision-Based Obstacle Avoidance
  • Development of a Visual SLAM System for Autonomous Indoor navigation.

Human-Robot Collaboration

  • Development of Robot Assistants for Elderly Care and Companionship
  • Implementation of Collaborative Robots (Cobots) in Manufacturing Processes
  • Shared Control Interfaces for Teleoperation of Remote Robots
  • Ethics and Social Impact Assessment of Human-Robot Interaction
  • Evaluation of User Interfaces for Robotic Assistants in Healthcare
  • Human-Centric Design of Robotic Exoskeletons for Enhanced Mobility
  • Enhancing Worker Safety in Industrial Settings through Human-Robot Collaboration
  • Haptic Feedback Systems for Improved Teleoperation of Remote Robots
  • Investigating Human Trust and Acceptance of Autonomous Robots in Daily Life
  • Design and Testing of Safe and Efficient Human-Robot Collaborative Workstations

Bio-Inspired Robotics

  • Biohybrid Robots Combining Biological and Artificial Components for Unique Functions
  • Evolutionary Robotics Algorithms for Robot Behavior Optimization
  • Swarm Robotics Inspired by Insect Behavior for Collective Tasks
  • Design and Fabrication of Soft Robotics for Flexible and Adaptive Movement
  • Biomimetic Robotic Fish for Underwater Exploration
  • Biorobotics Research for Prosthetic Limb Design and Control
  • Development of a Robotic Pollination System Inspired by Bees
  • Bio-Inspired Flying Robots for Agile and Efficient Aerial Navigation
  • Bio-Inspired Sensing and Localization Techniques for Robotic Applications
  • Development of a Legged Robot with Biomimetic Locomotion Inspired by Animals

Robot Learning and AI

  • Transfer Learning Strategies for Robotic Applications in Varied Environments
  • Explainable AI Models for Transparent Robot Decision-Making
  • Robot Learning from Demonstration (LfD) for Complex Tasks
  • Machine Learning Algorithms for Predictive Maintenance of Industrial Robots
  • Neural Network-Based Vision System for Autonomous Robot Learning
  • Reinforcement Learning for UAV Swarms and Cooperative Flight
  • Human-Robot Interaction Studies to Improve Robot Learning
  • Natural Language Processing for Human-Robot Communication
  • Robotic Systems with Advanced AI for Autonomous Exploration
  • Implementation of Reinforcement Learning Algorithms for Robotic Control

Robotics in Healthcare

  • Design and Testing of Robotic Prosthetics and Exoskeletons for Enhanced Mobility
  • Telemedicine Platform for Remote Robotic Medical Consultations
  • Robot-Assisted Rehabilitation System for Physical Therapy
  • Simulation-Based Training Environment for Robotic Surgical Skill Assessment
  • Humanoid Robot for Social and Emotional Support in Healthcare Settings
  • Autonomous Medication Dispensing Robot for Hospitals and Pharmacies
  • Wearable Health Monitoring Device with AI Analysis
  • Robotic Systems for Elderly Care and Fall Detection
  • Surgical Training Simulator with Realistic Haptic Feedback
  • Development of a Robotic Surgical Assistant for Minimally Invasive Procedures

Robots in Industry

  • Quality Control and Inspection Automation with Robotic Systems
  • Risk Assessment and Safety Measures for Industrial Robot Environments
  • Human-Robot Collaboration Solutions for Manufacturing and Assembly
  • Warehouse Automation with Robotic Pick-and-Place Systems
  • Industrial Robot Vision Systems for Quality Assurance
  • Integration of Cobots in Flexible Manufacturing Cells
  • Robot Grippers and End-Effector Design for Specific Industrial Tasks
  • Predictive Maintenance Strategies for Industrial Robot Fleet
  • Robotics for Lean Manufacturing and Continuous Improvement
  • Robotic Automation in Manufacturing: Process Optimization and Integration

Robots in Space Exploration

  • Precise Autonomous Spacecraft Navigation for Deep Space Missions
  • Robotics for Satellite Servicing and Space Debris Removal
  • Lunar and Martian Surface Exploration with Autonomous Robots
  • Resource Utilization and Mining on Extraterrestrial Bodies with Robots
  • Design and Testing of Autonomous Space Probes for Interstellar Missions
  • Autonomous Space Telescopes for Astronomical Observations
  • Robot-Assisted Lunar Base Construction and Maintenance
  • Planetary Sample Collection and Return Missions with Robotic Systems
  • Biomechanics and Human Factors Research for Astronaut-Robot Collaboration
  • Autonomous Planetary Rovers: Mobility and Scientific Exploration

Environmental Robotics

  • Environmental Monitoring and Data Collection Using Aerial Drones
  • Robotics in Wildlife Conservation: Tracking and Protection of Endangered Species
  • Disaster Response Robots: Search, Rescue, and Relief Operations
  • Autonomous Agricultural Robots for Sustainable Farming Practices
  • Autonomous Forest Fire Detection and Firefighting Robot Systems
  • Monitoring and Rehabilitation of Coral Reefs with Robotic Technology
  • Air Quality Monitoring and Pollution Detection with Mobile Robot Swarms
  • Autonomous River and Marine Cleanup Robots
  • Ecological Studies and Environmental Protection with Robotic Instruments
  • Development of Underwater Robotic Systems for Ocean Exploration and Monitoring

These project ideas span a wide range of topics within robotics research, offering opportunities for innovation, exploration, and contribution to the field. Researchers, students, and enthusiasts can choose projects that align with their interests and expertise to advance robotics technology and its applications.

Robotics Research Topics for high school students

  • Home Robots: Explore how robots can assist in daily tasks at home.
  • Medical Robotics: Investigate robots used in surgery and patient care.
  • Robotics in Education: Learn about robots teaching coding and science.
  • Agricultural Robots: Study robots in farming for planting and monitoring.
  • Space Exploration: Discover robots exploring planets and space.
  • Environmental Robots: Explore robots in conservation and pollution monitoring.
  • Ethical Questions: Discuss the ethical dilemmas in robotics.
  • DIY Robot Projects: Build and program robots from scratch.
  • Robot Competitions: Participate in exciting robotics competitions.
  • Cutting-Edge Innovations: Stay updated on the latest in robotics.

These topics offer exciting opportunities for high school students to delve into robotics research, learning, and creativity.

Easy Robotics Research Topics 

Introduction to robotics.

Explore the basics of robotics, including robot components and their functions.

History of Robotics

Investigate the evolution of robotics from its beginnings to modern applications.

Robotic Sensors

Learn about various sensors used in robots for detecting and measuring data.

Simple Robot Building

Build a basic robot using kits or everyday materials and learn about its components.

Programming a Robot

Experiment with programming languages like Scratch or Blockly to control a robot’s movements.

Robots in Entertainment

Explore how robots are used in the entertainment industry, such as animatronics and robot performers.

Robotics in Toys

Investigate robotic toys and their mechanisms, such as remote-controlled cars and drones.

Robotic Pets

Learn about robotic pets like robot dogs and cats and their interactive features.

Robotics in Science Fiction

Analyze how robots are portrayed in science fiction movies and literature.

Robotic Safety

Explore safety measures and protocols when working with robots to prevent accidents.

These topics provide a gentle introduction to robotics research and are ideal for beginners looking to learn more about this exciting field.

Latest Research Topics in Robotics

The field of robotics is ever-evolving, with a plethora of exciting research topics at the forefront of exploration. Here are some of the latest and most intriguing areas of research in robotics:

Soft Robotics

Soft robots, crafted from flexible materials, can adapt to their surroundings, making them safer for human interaction and ideal for unstructured environments.

Robotic Swarms

Groups of robots working collectively toward a common objective, such as search and rescue missions, disaster relief efforts, and environmental monitoring.

Robotic Exoskeletons

Wearable devices designed to enhance human strength and mobility, offering potential benefits for individuals with disabilities, boosting worker productivity, and aiding soldiers in carrying heavier loads.

Medical Robotics

Robots play a vital role in various medical applications, including surgery, rehabilitation, and drug delivery, enhancing precision, reducing human error, and advancing healthcare practices.

Intelligent Robots

Intelligent robots have the ability to learn and adapt to their surroundings, enabling them to tackle complex tasks and interact naturally with humans.

These are just a glimpse of the thrilling research avenues within robotics. As the field continues to progress, we anticipate witnessing even more groundbreaking advancements and innovations in the years ahead.

What topics are in robotics?

Robotics basics.

Understanding the fundamental concepts of robotics, including robot components, kinematics, and control systems.

Robotics History

Exploring the historical development of robotics and its evolution into a multidisciplinary field.

Robot Sensors

Studying the various sensors used in robots for perception, navigation, and interaction with the environment.

Robot Actuators

Learning about the mechanisms and motors that enable robot movement and manipulation.

Robot Control

Understanding how robots are programmed and controlled, including topics like motion planning and trajectory generation.

Robot Mobility

Examining the different types of robot mobility, such as wheeled, legged, aerial, and underwater robots.

Artificial Intelligence in Robotics

Exploring the role of AI and machine learning in enhancing robot autonomy, decision-making, and adaptability.

Human-Robot Interaction

Investigating how robots can effectively interact with humans, including social and ethical considerations.

Robot Perception

Studying computer vision and other technologies that enable robots to perceive and interpret their surroundings.

Robotic Manipulation

Delving into robot arms, grippers, and manipulation techniques for tasks like object grasping and assembly.

Robot Localization and Mapping

Understanding methods for robot localization (knowing their position) and mapping (creating maps of their environment).

Robotics in Medicine

Exploring the use of robots in surgery, rehabilitation, and medical applications.

Analyzing the role of robots in manufacturing and automation, including industrial robot arms and cobots.

Learning about robots capable of making decisions and navigating autonomously in complex environments.

Robot Ethics

Examining ethical considerations related to robotics, including issues of privacy, safety, and AI ethics.

Exploring robots inspired by nature, such as those mimicking animal locomotion or behavior.

Robotic Applications

Investigating specific applications of robots in fields like agriculture, space exploration, entertainment, and more.

Robotics Research Trends

Staying updated on the latest trends and innovations in the field, such as soft robotics, swarm robotics, and intelligent agents.

These topics represent a broad spectrum of areas within robotics, each offering unique opportunities for research, development, and exploration.

What are your 10 robotics ideas?

Home assistant robot.

Build a robot that can assist with everyday tasks at home, like fetching objects, turning lights on and off, or even helping with cleaning.

Robotics in Agriculture

Create a robot for farming tasks, such as planting seeds, monitoring crop health, or even autonomous weed removal.

Autonomous Delivery Robot

Design a robot capable of delivering packages or groceries autonomously within a neighborhood or urban environment.

Search and Rescue Robot

Develop a robot that can navigate disaster-stricken areas to locate and assist survivors or relay important information to rescuers.

Robot Artist

Build a robot that can create art, whether it’s through painting, drawing, or even sculpture.

Underwater Exploration Robot

Construct a remotely operated vehicle (ROV) for exploring the depths of the ocean and gathering data on marine life and conditions.

Robot for the Elderly

Create a companion robot for the elderly that can provide companionship, reminders for medication, and emergency assistance.

Educational Robot

Design a robot that can teach coding and STEM concepts to children in an engaging and interactive way.

Robotics in Space

Develop a robot designed for space exploration, such as a planetary rover or a robot for asteroid mining.

Design a lifelike robotic pet that can offer companionship and emotional support, especially for those unable to care for a real pet.

These project ideas span various domains within robotics, from practical applications to creative endeavors, offering opportunities for innovation and exploration.

What are the 7 biggest challenges in robotics?

Robot autonomy.

Imagine robots that can think for themselves, make decisions, and navigate complex, ever-changing environments like a seasoned explorer.

Robotic Senses

Picture robots with superhuman perception, able to see, hear, and understand the world around them as well as or even better than humans.

Human-Robot Harmony

Think of robots seamlessly working alongside us, understanding our needs, and being safe, friendly, and helpful companions.

Robotic Hands and Fingers

Envision robots with the dexterity of a skilled surgeon, capable of handling delicate and complex tasks with precision.

Robots on the Move

Imagine robots that can gracefully traverse all kinds of terrain, from busy city streets to rugged mountain paths.

Consider the ethical questions surrounding robots, like privacy, fairness, and the impact on employment, as we strive for responsible and beneficial AI.

Robot Teamwork

Visualize a world where robots from different manufacturers can effortlessly work together, just like a symphony orchestra playing in perfect harmony.

What are the 5 major fields of robotics?

Industrial wizards.

Think of robots working tirelessly on factory floors, welding, assembling, and ensuring top-notch quality in the products we use every day.

Helpful Companions

Imagine robots assisting us in non-industrial settings, from healthcare, where they assist in surgery and rehabilitation, to our homes, where they vacuum our floors and make life a little easier.

Mobile Marvels

Picture robots that can move and navigate on their own, exploring uncharted territories in space, performing search and rescue missions, or even delivering packages to our doorstep.

Human-Like Helpers

Envision robots that resemble humans, not just in appearance but also in their movements and interactions. These are the robots designed to understand and assist us in ways that feel natural.

AI-Powered Partners

Think of robots that aren’t just machines but intelligent partners. They learn from experience, adapt to different situations, and make decisions using cutting-edge artificial intelligence and machine learning.

Let’s wrap up our robotics research topics. As we have seen that there is endless innovation in robotics research topics. That is why there are lots of robotics research topics to explore.

As the technology is innovating everyday and continuously evolving there are lots of new challenges and discoveries are emerging in the world of robotics.

With these robotics research topics you would explore a lot about the future endeavors of robotics.  These topics would also tap on your creativity and embrace your knowledge about robotics. So let’s implement these topics and feel the difference.

Frequently Asked Questions

How can i get involved in robotics research.

To get started in robotics research, you can pursue a degree in robotics, computer science, or a related field. Join robotics clubs, attend conferences, and seek out research opportunities at universities or tech companies.

Are there any ethical concerns in robotics research?

Yes, ethical concerns in robotics research include issues related to job displacement, privacy, and the use of autonomous weapons. Researchers are actively addressing these concerns to ensure responsible development.

What are the career prospects in robotics research?

Robotics research offers a wide range of career opportunities, including robotics engineer, AI specialist, data scientist, and robotics consultant. The field is constantly evolving, creating new job prospects.

How can robotics benefit society?

Robotics can benefit society by improving healthcare, increasing manufacturing efficiency, conserving the environment, and aiding in disaster response. It has the potential to enhance various aspects of our lives.

What is the role of AI in robotics research?

AI plays a crucial role in robotics research by enabling robots to make intelligent decisions, adapt to changing environments, and perform complex tasks. AI and robotics are closely intertwined, driving innovation in both fields.

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91 Robots Essay Topics & Robotics Topics to Research

🏆 best robotics essay topics, 🌶️ hot robots essay topics, 🎓 most interesting robotics research topics, 💡 simple robotics topics for essays, ❓ research questions about robotics.

  • Will Robots Reduce or Increase Human Employment Opportunities?
  • In Support of Robotics Use in Agriculture
  • Home Robotics in the Modern World
  • Hypothesis Statement on Robotics
  • Drones and Robotic Technology
  • Healthcare Robotics Impact
  • Robotics, Its Merits and Demerits
  • Intelligent Robots, Their Benefits and Disadvantages The creation of aa thinking computer will require a lot of resources and are guaranteed to bring complex dilemmas and controversy into the world.
  • Whether Robots are Conscious or Not? Robots are devices which mimic human or animal characteristics in performing the specified jobs and are considered to possess virtual intelligence.
  • Will Robots Replace Dentists? The precision, and accuracy of robots, as well as their enhanced safety, make them an important tool in the provision of optimal dental care.
  • Da Vinci Robotic Technology in Healthcare The use of a robot-assisted surgical system the Da Vinci Robot has become an essential stage in the development of minimally invasive surgery, primarily in cancer treatment.
  • Resisting Nature: Decision Analysis In The Robot’s Rebellion Stanovich implies that humanity is primarily driven by the relatively simple yet overwhelmingly powerful desire to replicate.
  • Usage of AI and Robotics in Project Management Technological progress has allowed humanity to use the technologies they could not implement in the past centuries.
  • Robotic Surgery Robotic surgery is a term that is used to describe technological developments that use robotic systems to aid in surgical procedures.
  • Robots vs. Human Service in the Hotel Industry This paper explores studies relating to the effectiveness of robots used in hotel operations and discusses why robots are effective compared to human operations.
  • The Advantages and Disadvantages of Robotic Surgeries Robotic or robot-assisted surgery is a new technology that allows surgeons to operate with better control, precision, and flexibility.
  • The Dawn of Artificial Intelligence: Robots Robots were created by people to satisfy their large insatiable appetites. Such a sacrilegious act against the miracle of creation may cost a lot.
  • Nano Robotics in Hospitals Nanotechnology is believed to be extremely useful in health care to deliver medication through blood or treat various types of tumors.
  • Case of the Killer Robot: Ethical and Legal Issues This paper is to assess the stakeholders’ points of view, facts, ethical and legal norms related to the Case of the Killer Robot, and the possible options for its resolution.
  • Pro-Forma Projected Expenses and Operating Costs for Robotics A pro-forma projected financial statement is a leveraging tool for hypothetical assumptions and data for the future value of a project’s performance.
  • Autonomous Space Robots Actualization The actualization of NASA’s idea of autonomous space robots with the capacity to repair and refuel satellites will pave the way for further developments and exploration.
  • The Great Robot Race The thought of fully unmanned ground vehicles fascinates everyone with an interest in robotics and automation technologies.
  • Integration of Robots in Hotel Services The automatic systems in the service industry are supposed to improve the level and the quality of the stay in the hotel.
  • The “Robots on Earth” Article by Jerry West “Robots on Earth” by Jerry West is a work of non-fiction that attempts to discuss the ways in which the perception of robots and AI are misrepresented within society.
  • Haptic Robots and Mediated Affective Touch This paper presents an overview of haptic robots, haptic contact for humans, potential uses of the touch robots and their benefits, and current technological application.
  • Emerging Technology on Robotics in Surgery and Nanotechnology Robotics is particularly important in assisting doctors carry out very intricate surgical procedures. Robots are made by Nanorobotics technology.
  • An Innovative Robotics Era: Review AI-powered technologies have been implemented in the retail sector for long decades, but a truly innovative robotics era is yet to come.
  • Practical Application of Robotics in Health Care Technological progress in robotics and artificial intelligence provides countless future prospects for addressing current healthcare issues.
  • The Practical Application of Robotics in Health Care The new digital solutions might facilitate more efficient and computerized management of work and provide continuous training for clinicians.
  • The Robots Are Coming – For as Many as 800 Million Jobs As the technology of artificial intelligence swiftly develops, many business owners and corporations are eagerly pondering the possible ways of automation in their operations.
  • “Robotic Kidney Transplantation: One Year After the Beginning”: Article Synopsis This article provides an overview of articles describing the kidney transplant process and how robotic systems facilitate the process and reduce the risk of an adverse outcome.
  • Are We Already Robots or Not Yet? The thesis of this essay is that computer technology makes us robots who are unable to think and accept rational decisions by themselves.
  • Robotic Technologies in the Healthcare Sector This paper will discuss the benefits of robotic technologies in the health care sector with a review of examples and personal experience.
  • Soft Robot for Elderly Fall Prevention The NoFallsRob can be helpful in nursing homes and households where older people live. The system is mainly electricity-powered, but it can also have solar panels.
  • Robotics in Manufacturing: Social and Ethical Implications The field of robotics has been growing tremendously over the last three decades, as occasioned by the technological revolution of the late 20th century.
  • Scientific Robotics Equipment Corporation’s Investment The paper aims to help the Assistant Production Manager of Scientific Robotics Equipment Corporation select the most profitable investment project.
  • Ethical Questions Surrounding AI and Robots
  • Industrial Robots and Manufacturing Automation
  • Musical Robots and Interactive Multimodal Systems
  • Robots Will Never Experience Emotion
  • Interfacing Microprocessors and Simple Sensors in Robots
  • Robotics and the History of Robots
  • Designing Customizable and Programmable Robots
  • Ethical Issues and Humanoid Robots
  • Modularity and Sparsity: Evolution of Neural Net Controllers in Physically Embodied Robots
  • The Fundamental Difference Between Robots and Humans
  • Robots Are Increasingly Being Used in Surgical Procedures
  • Robots Are Becoming More Like Human
  • Robot-Assisted Surgery: Advantages and Disadvantages
  • The Different Benefits Robots Will Have In Our Everyday Lives
  • Robots Shouldn’t Replace Human Labor
  • The History and Use of Robots in Industry
  • Confidence-Based Progress-Driven Self-Generated Goals for Skill Acquisition in Developmental Robots
  • Robots and Its Impact on Society
  • Development of Anthropomorphic Emotion Expression and Interaction Robots
  • Similarities And Differences Between Robots and Animal Pets
  • Non Lethal Labor Robots and Automation Tax
  • Possible Uses for Robots for Search and Rescue Missions
  • The Benefits and Methodologies of Rescue Robots
  • Concrete Structures Using Autonomous Robots
  • The Ethical Issues Accompanied in Developing Robots
  • Industrial Robots and Their Use in Manufacturing
  • Benefits That Robots Bring to Society
  • Technology and the Health Care Industry With Robots
  • Military and Industrial Use of Robots
  • Are Robots Beneficial for Society?
  • How Do Artificial Intelligence and Robotics Change Our Lives?
  • Can Humanoid Service Robots Perform Better Than Service Employees?
  • Why Is Robotics Important in Today’s Society?
  • How Does Medical Robotics Affect Healthcare Costs and Patients?
  • Are Robots Stealing Our Jobs?
  • How Are Robots Involved in Medicine?
  • Will Robots and Humanoids Take Over the World?
  • How Has Robotics Enhanced Our Lives?
  • Are Robots Taking Control of Human Tasks?
  • What’s the Difference Between Robotics and Artificial Intelligence?
  • How Can Robots Affect Children’s Development?
  • Are Robots the Solution to Equality in the Job Interview Process?
  • What Science Is Involved in Robotics?
  • How Can Robots Solve the Problem of Aging Population?
  • Are Surgical Robots Really the Future of Medicine?
  • How Will Autonomous Robots Change Military Tactics?
  • Can Service Robots Hamper Customer Anger and Aggression After a Service Failure?
  • How Can Robotics Help People?
  • Will Robotics Have an Enormous Negative Impact on the Economy?
  • How Is Robotics Advantageous in the Design and Manufacturing Sector?
  • Why Is Robotics So Important in the Future?
  • How Can the Advancement of Robotics Shape the World Today?
  • What Are Some Important Developments in Robotics?
  • Why Are Robotics Important in Production Lines?

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StudyCorgi . 2022. "91 Robots Essay Topics & Robotics Topics to Research." May 10, 2022.

StudyCorgi . (2022) '91 Robots Essay Topics & Robotics Topics to Research'. 10 May.

These essay examples and topics on Robots were carefully selected by the StudyCorgi editorial team. They meet our highest standards in terms of grammar, punctuation, style, and fact accuracy. Please ensure you properly reference the materials if you’re using them to write your assignment.

This essay topic collection was updated on December 28, 2023 .

research paper topics about robotics

Top 5 Robot Trends 2024

New Technology simplifies Automation

research paper topics about robotics

1 – Artificial Intelligence (AI) and machine learning

The trend of using Artificial Intelligence in robotics and automation keeps growing. The emergence of generative AI opens-up new solutions. This subset of AI is specialized to create something new from things it’s learned via training, and has been popularized by tools such as ChatGPT. Robot manufacturers are developing generative AI-driven interfaces which allow users to program robots more intuitively by using natural language instead of code. Workers will no longer need specialized programming skills to select and adjust the robot´s actions.

Another example is predictive AI analyzing robot performance data to identify the future state of equipment. Predictive maintenance can save manufacturers machine downtime costs. In the automotive parts industry, each hour of unplanned downtime is estimated to cost US$1.3m - the Information Technology & Innovation Foundation reports. This indicates the massive cost-saving potential of predictive maintenance. Machine learning algorithms can also analyze data from multiple robots performing the same process for optimization. In general, the more data a machine learning algorithm is given, the better it performs.

2 – Cobots expanding to new applications

Human-robot collaboration continues to be a major trend in robotics. Rapid advances in sensors, vision technologies and smart grippers allow robots to respond in real-time to changes in their environment and thus work safely alongside human workers.

Collaborative robot applications offer a new tool for human workers, relieving and supporting them. They can assist with tasks that require heavy lifting, repetitive motions, or work in dangerous environments.

The range of collaborative applications offered by robot manufacturers continues to expand.

A recent market development is the increase of cobot welding applications, driven by a shortage of skilled welders. This demand shows that automation is not causing a labor shortage but rather offers a means to solve it. Collaborative robots will therefore complement – not replace – investments in traditional industrial robots which operate at much faster speeds and will therefore remain important for improving productivity in response to tight product margins.

New competitors are also entering the market with a specific focus on collaborative robots. Mobile manipulators, the combination of collaborative robot arms and mobile robots (AMRs), offer new use cases that could expand the demand for collaborative robots substantially.

3 – Mobile Manipulators

Mobile manipulators – so called “MoMas” - are automating material handling tasks in industries such as automotive, logistics or aerospace. They combine the mobility of robotic platforms with the dexterity of manipulator arms. This enables them to navigate complex environments and manipulate objects, which is crucial for applications in manufacturing. Equipped with sensors and cameras, these robots perform inspections and carry out maintenance tasks on machinery and equipment. One of the significant advantages of mobile manipulators is their ability to collaborate and support human workers. Shortage of skilled labor and a lack of staff applying for factory jobs is likely to increase demand.

4 – Digital Twins

Digital twin technology is increasingly used as a tool to optimize the performance of a physical system by creating a virtual replica. Since robots are more and more digitally integrated in factories, digital twins can use their real-world operational data to run simulations and predict likely outcomes. Because the twin exists purely as a computer model, it can be stress-tested and modified with no safety implications while saving costs. All experimentation can be checked before the physical world itself is touched. Digital twins bridge the gap between digital and physical worlds.

5 – Humanoid Robots

Robotics is witnessing significant advancements in humanoids, designed to perform a wide range of tasks in various environments. The human-like design with two arms and two legs allows the robot to be used flexibly in work environments that were actually created for humans. It can therefore be easily integrated e.g. into existing warehouse processes and infrastructure.

research paper topics about robotics

The Chinese Ministry of Industry and Information Technology (MIIT) recently published detailed goals for the country’s ambitions to mass-produce humanoids by 2025. The MIIT predicts humanoids are likely to become another disruptive technology, similar to computers or smartphones, that could transform the way we produce goods and the way humans live.

The potential impact of humanoids on various sectors makes them an exciting area of development, but their mass market adoption remains a complex challenge. Costs are a key factor and success will depend on their return on investment competing with well-established robot solutions like mobile manipulators, for example.

“The five mutually reinforcing automation trends in 2024 show that robotics is a multidisciplinary field where technologies are converging to create intelligent solutions for a wide range of tasks,” says Marina Bill, President of the International Federation of Robotics. “These advances continue to shape the merging industrial and service robotics sectors and the future of work.”

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105 Robots Essay Topic Ideas & Examples

🏆 best robots topic ideas & essay examples, 👍 good essay topics on robots, ⭐ simple & easy robots essay titles, ❓ questions about robots.

  • Autonomous Controller Robotics: The Future of Robots The middle level is the Coordination level which interfaces the actions of the top and lower level s in the architecture.
  • A Mobile Robotic Project in the Ohio State University Medical Center In order for the project to be successful there must be a one-to-one contact between those implementing the project and the staff at the hospital. We will write a custom essay specifically for you by our professional experts 808 writers online Learn More
  • The Use of Robots in Warfare The military advancement in the use of robots in warfare will at long last essentially drastically reduce the role of human beings in war. The increased use of robots in the battlefield needs countries to […]
  • Marketing the Wireless Robotic Car By sending the robotic car to a chemical hazard, it is possible to determine the extent of spillage of a liquid or a solid pollutant.
  • Will Robots Take Over Human Jobs? Most of these people argue that due to the increasing number of computer equipped robots, the banking industry, the technical industry and even the administrative departments of many countries have suffered great losses at the […]
  • Meteorite or Puck Hunt: Autonomous Mobile Robot The Development of the Design Being the first time that we are taking part in this type of competition, we decide to work out a plan that would help us develop the autonomous mobile robot […]
  • Visions of the Future in the Film I, Robot Even though some of the aspects of the filmmaker’s vision of future are possible, and very likely to become reality, the essence of the film appears highly unrealistic.
  • Projects “Cyborg” and “New Electrical Apparatus” in Robotics In fact, although Project Cyborg included some medical expertise, the purpose is significantly similar to the project by Nicholson and Carlisle largely because a medical achievement is not one of their aims.
  • Fiat Company: Deployment of Robotics in Manufacturing The technology also enhanced the reduction of production costs by reducing the number of working days without effecting the production and the performance of the company at its peak.
  • Welcome Robotic for Abu Dhabi Women College In the year 2009, the college opened a second banch in the city of khalifa to cater for the students who encounter problems relocating to the capital city.
  • Robotic Pharmacy System Implementation Citing some of the key benefits of the robotic pharmacy system, one of the most important is that it reduces the need for technical labor significantly.
  • Autonomous Robots Since they are self sufficient, the autonomous robots have the capacity to work in the absence of human beings. In the future, humanoid robots might have the intelligence and emotions similar to those of human […]
  • Will Robots Ever Replace Humans? It is quite peculiar that Bolonkin uses negation in order to stir the audience’s delight; more impressively, the specified approach works the pathos is concealed not in the description of the possibilities, but the compliment […]
  • Is the Robotics Development Helpful or Harmful? Robots remain the best option, as they will connect the children with the happenings in the school. They will dress the robot with their favorite clothes, communicate with the teacher using the robot, and swivel […]
  • Stihl Company and Its Robotics Automation involves the use of robots in the production process. The company’s productivity has come as a result of the automation production practices and its presence across the globe.
  • Robotics’ Sociopolitical and Economic Implications The foremost benefits of Robotics for individuals can be formulated as follows: The continual development/implementation of the Robotics-related technologies will increase the chances of self-actualization, on the part of the potentially affected individuals.
  • Robotic Satellites: Implementation Plan and Budget One of the most effective methods of reaching the maximum level of security, not to feel restricted, and reduce spending is the usage of electronic or robotic companions.
  • Electronic or Robotic Companions: Business Model The device the usage of which will help to destroy the language bar. The speech of any speaker will be translated and presented to the owner of the device in his/her native language.
  • Australian Robotics Inc.’s Project Management As such, the measure of success will focus on ascertaining whether or not the project develops a new family of highly flexible, “intelligent” robots that can be used in handling heavy industry tasks.
  • Rights of ‘Feeling’ Robots and Humans Many futurists believe strongly that new laws will be needed to tame the behaviors and actions of robots. That being the case, autonomous robots might take advantage of their rights to control human beings.
  • Spot Mini Robot by Boston Dynamics While the bigger robots by Boston Dynamics are designed to operate in extreme conditions, Spot Mini is a household robot, which makes it marketable to a wider community and, therefore, profitable.
  • Robots as a Factor in Unemployment Patterns One of the prevailing arguments in regards to this problem is that the advent of the robot technology is contributing towards a high rate of unemployment.
  • Robotics in Construction Management: Impacts and Barriers The assessment of the economic feasibility of the robotization of individual construction processes is based on cost analysis and the calculation of payback.
  • Robotic-Assisted Intervention Effectiveness Modern robots for upper limb training differ in terms of the degrees of freedom, the type of feedback, and the available modes of training.
  • Robot-Assisted Rehabilitation: Article Critique The information about the groups of participants was available to clinicians and study personnel since the only post-stroke individual in the sample needed special procedures to participate.
  • Double Robotics Website’s Tracking Strategy The goals of the website are to familiarize audiences with the telepresence industry and to convince both corporate and individual potential customers to purchase a robot.
  • Technology: Will Robots Ever Replace Humans? According to the author, one’s intelligence is not being solely concerned with the processing of data in the algorithmic manner, as it happened to be the case with AI it reflects the varying ability of […]
  • Baxter Robots and Company Performance This technology will impact the performance of companies by reducing the time spent on repetitive duties such as packing. In case my employers buy this robot, I will not be affected personally, but the performance […]
  • Questionable Future of Robotics In this case, the lecture, which was focusing on the flow of robotics’ development, influenced my perception about the future, robotics’ impact on our lives, and the ability of robots to destroy the humanity.
  • Robotics. “Humans Need Not Apply” Video Mechanical muscles are more strong and reliable than humans, and the replacement of people by mechanisms in physical work allows society to specialize in intellectual work, develop economics and raise the standards of living.
  • 3D Robotics Disrupts the Aviation Industry 3D Robotics describe their business model as perceiving open hardware, drones, and the future of robotics as the part of the community and the company.
  • Use of Robots in Computer Science Currently, the most significant development in the field of computer science is the inclusion of robots as teaching tools. The use of robots in teaching computer science has significantly helped to endow students with valuable […]
  • Knowledge of Saudi Nurse Managers Towards Robots The main objective of this study is to investigate the attitudes and knowledge of Saudi nurse managers towards the adoption of robotics for remote monitoring and management of elderly patient with chronic illness in an […]
  • The Connection Between Science and Technology: The Robotic Fish by Professor HU Furthermore, we discuss the other effects of science in technology and some of the recent technological developments in the rest of the world.
  • Robotic Visual Recognition and Robotics in Healthcare There are a number of systems and tools are used in order to produce a time-saving and efficient robot. In a number of cases, robots are the extension of a doctor’s skills and also assist […]
  • The Use of Robotics in the Operating Room The da Vinci surgical system is the first and one of the famous Robotics surgical systems used in the operating room.
  • I, Robot and the Effects of Technology The judgment call is generally made on the quality of life of the humans, with little to no regard for the lifestyle and options available to the robots who have achieved a higher level of […]
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  • Intelligent Transportation Systems: A Robot Project The construction of the robot involved the use of sensors and microchips, accessories also used in ITS technology. The role of the sensors in the robot was to detect obstacles and red light on the […]
  • Robots in Today’s Society: Artificial Intelligence The most important is the automation of the repeating process, to liberate human power, and avoid mistakes and delays in the processes.
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IvyPanda. (2023, November 9). 105 Robots Essay Topic Ideas & Examples.

"105 Robots Essay Topic Ideas & Examples." IvyPanda , 9 Nov. 2023,

IvyPanda . (2023) '105 Robots Essay Topic Ideas & Examples'. 9 November.

IvyPanda . 2023. "105 Robots Essay Topic Ideas & Examples." November 9, 2023.

1. IvyPanda . "105 Robots Essay Topic Ideas & Examples." November 9, 2023.


IvyPanda . "105 Robots Essay Topic Ideas & Examples." November 9, 2023.

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Human-environment-centered Artificial Intelligence Systems

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About this Research Topic

The Research Topic is organized in conjunction with the International Conference on Artificial Intelligence and Green Computing (ICAIGC) , to welcome contributions focused on Human-environment Centered AI presented at the 2023 event (or past sessions) in the form of extended papers. Artificial intelligence (AI) has become a powerful and emerging technology for analysing data and creating intelligent systems. The use of artificial intelligence for data analysis in fields of knowledge such as natural language processing, computer vision, medical image analysis, industry, robotics, ubiquitous data analytics, cloud computing, the Internet of things, security, and in many other fields has shown its great effectiveness and efficiency. Therefore, this themed article collection is focused on AI applications and systems human and environment-centered. AI-driven technology will likely continue to improve efficiency and productivity and develop even more innovative applications and systems over time. However, many questions are addressed on the advantages and drawbacks of the intensive use of AI. The goal of this Research Topic is to exhibit how AI-based technologies and applications can improve human life through smart systems and innovative technologies. Developing human environment-AI technologies and systems is also necessary. Original research articles, reviews and other papers that show recent case studies of human-environment-centered AI applications are welcome. Specific topics of interest include, but are not limited to: - Applications of AI for healthcare; - IoT for Healthcare, e-Health, and Assisted Living; - Big data for Healthcare management.

Keywords : AI for Healthcare, AI for Environnment, Big data, Edge computing, Security

Important Note : All contributions to this Research Topic must be within the scope of the section and journal to which they are submitted, as defined in their mission statements. Frontiers reserves the right to guide an out-of-scope manuscript to a more suitable section or journal at any stage of peer review.

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With their unique mixes of varied contributions from Original Research to Review Articles, Research Topics unify the most influential researchers, the latest key findings and historical advances in a hot research area! Find out more on how to host your own Frontiers Research Topic or contribute to one as an author.

Data, Privacy Laws and Firm Production: Evidence from the GDPR

By regulating how firms collect, store, and use data, privacy laws may change the role of data in production and alter firm demand for information technology inputs. We study how firms respond to privacy laws in the context of the EU’s General Data Protection Regulation (GDPR) by using seven years of data from a large global cloud-computing provider. Our difference-in-difference estimates indicate that, in response to the GDPR, EU firms decreased data storage by 26% and data processing by 15% relative to comparable US firms, becoming less “data-intensive.” To estimate the costs of the GDPR for firms, we propose and estimate a production function where data and computation serve as inputs to the production of “information." We find that data and computation are strong complements in production and that firm responses are consistent with the GDPR, representing a 20% increase in the cost of data on average. Variation in the firm-level effects of the GDPR and industry-level exposure to data, however, drives significant heterogeneity in our estimates of the impact of the GDPR on production costs.

We thank Guy Aridor, James Brand, Alessandro Bonatti, Peter Cihon, Jean Pierre Dubé, Joe Doyle, Ben Edelman, Liran Einav, Sara Ellison, Maryam Farboodi, Samuel Goldberg, Yizhou Jin, Garrett Johnson, Gaston Illanes, Markus Mobius, Devesh Raval, Dominik Rehse, Tobias Salz, Bryan Stuart, Taheya Tarannum, Joel Waldfogel, and Mike Whinston for helpful comments, and Abbie Natkin, Taegan Mullane, Doris Pan, Ryan Perry, Bea Rivera for excellent research assistance. We are also grateful to Han Choi for copyediting assistance. We gratefully acknowledge the support of the National Institute on Aging, Grant Number T32- AG000186 (Li) and the National Science Foundation Graduate Research Fellowship under Grant No 214106 (Li). The views expressed herein are those of the authors and do not necessarily reflect the views of the Federal Reserve Bank of Chicago, the Federal Reserve System, or the National Bureau of Economic Research.

Mert Demirer is a former paid postdoctoral researcher at Microsoft (a firm active in the cloud market, which this paper studies).

Diego Jiménez Hernández is a former paid postdoctoral researcher at Microsoft.

Dean Li is a former intern at Microsoft.

Sida Peng is a paid employee and minority equity holder at Microsoft.


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