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The following pages do not link to other pages in Control Systems Technology Group.
Showing below up to 500 results in range #1 to #500.
- 0LAUK0 2015 01 Survey
- 0LAUK0 2015 01 TheIdea
- 0LAUK0 2015 03 Planning
- 0LAUK0 2018Q1 Group 2 - Design Plans Research
- 0LAUK0 2018Q1 Group 2 - Prototype Functionality Testing
- 0LAUK0 2018Q1 Group 2 - SotA Literature Study
- 0LAUK0 2018Q1 Group 2 - test link
- 0LAUK0 PRE2016 3 Groep10 Application code
- 0LAUK0 PRE2016 3 Groep10 Interview
- 0LAUK0 PRE2016 3 Groep10 Logboek
- 0LAUK0 PRE2016 3 Groep10 Planning
- 0LAUK0 PRE2016 3 Groep10 Project progress
- 0LAUK0 PRE2016 3 Groep18 DetailedScenarios
- 0LAUK0 PRE2016 3 Groep18 Interview
- 0LAUK0 PRE2016 3 Groep18 Spellinggame
- 0LAUK0 PRE2016 3 Groep18 Summingup
- 0LAUK0 PRE2016 3 Groep18 higherlower
- 0LAUK0 PRE2016 3 Groep18 programminggame
- 0LAUK0 PRE2018 3 Group 13 Braille mechanisms
- 0LAUK0 PRE2018 3 Group 13 Concept interface
- 0LAUK0 PRE2018 3 Group 13 Dummy sentence
- 0LAUK0 PRE2018 3 Group 13 Letter software
- 0LAUK0 PRE2018 3 Group 13 Material Study
- 0LAUK0 PRE2018 3 Group 13 Planning
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- 4SC020 Design Document.pdf
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- == Week 1 ==
- = State of the Art Literature Study =
- A. Prakash, W. A. Rogers. (2015). Why Some Humanoid Faces Are Perceived More Positively Than Others: Effects of Human-Likeness and Task.
- AI articles not yet on the wiki
- ARParrotGPS PRE2 Groep1
- AT-LAB PCs
- A Gecko Inspired Fluid Driven Climbing Robot
- A High Integrity IMU/GPS Navigation Loop for Autonomous Land Vehicle Applications
- A Moving Solar Roof for a Hybrid Solar Vehicle
- A Multi-Modality Mobility Concept for a Small Package Delivery UAV
- A Path Motion Planning For Humanoid Climbing Robot
- A Small Window-Cleaning Robot for Domestic Use
- A Study of Omnidirectional Quad-Screw-Drive Configurations for All-Terrain Locomotion
- A cost-benefit analysis of Amazon Prime Air
- A cost-optimization model in multi-agent system routing for drone delivery
- A dynamic colour perception system for autonomous robot navigation on unmarked roads
- A multi-objective green UAV routing problem
- A survey of climbing robots: Locomotion and adhesion
- A survey on coverage path planning for robotics
- A wall climbing robot for inspection use
- Abubshait, A. & Wiese, E. (2017). You Look Human, But Act Like a Machine: Agent Appearance and Behavior Modulate Different Aspects of Human–Robot Interaction.
- Acqgen DataAcquisition
- Adams, B. et al. (2000). Humanoid Robots: A New Kind of Tool.
- Advanced oxidation processes (AOP) for water purification and recovery
- Algorithm 1
- Algorithm 2
- Amazon Prime Air
- An Analysis of Water Collection Labor among Women and Children in 24 Sub-Saharan African Countries
- Analyse van prototypen
- Analysis of energy capture by vehicle solar roofs in conjunction with workplace plug-in charging
- Analytical modelling of suction cups used for window-cleaning robots
- Answers
- Appendix PRE2020 1 Group2
- Archive hyperlink needed
- Arduino code 1
- Arduino code 2
- Articles bart
- Articles lighting
- Asada M. K. F. MacDorman, H. Ishiguro, Y. Kuniyoshi. (2017). Cognitive developmental robotics as a new paradigm for the design of humanoid robots.
- Auto-Selection Of Package Delivery Location Based On Estimated Time Of Delivery
- AutoRef Honors2019 minutes
- AutoRef Honors2019 team
- AutoRef MSD 1819
- AutoRef MSD 2019-2020
- AutoRef manuals
- Autonomous Aerial Cargo/Utility system
- Autonomous Drones for Assisting Rescue Services within the context of Natural Disasters
- Autonomous Measurement Drone for Remote Dangerous Source Location Mapping
- Autonomous Refueling Stations
- Autonomous and automatic landing system for drones
- Autonoom vliegen links
- BEP Shaft Rescue Robot (2022/2023, Q3)
- Background ARS
- Bar-Cohen, Y., & Breazeal, C., (2003). Biologically inspired intelligent robots.
- Bartneck, C. et al. (2009). My Robotic Doppelgänger - A Critical Look at the Uncanny Valley
- Beamer with Sidebar
- Beantwoorde deelvragen
- Beantwoorden vraag waarom het een probleem is dat blinden en slechtzienden minder werken dan zienden.
- Beschrijving van 3 banen waar robotica eventueel zouden kunnen helpen
- Botsingdetectie
- Breazeal, C. & Scassellatie, B. (2002). Robots That Imitate Humans.
- Brenna D. Argall, Sonia Chernova, Manuela Veloso, Brett Browning (2008), A survey of robot learning from demonstration, Robotics and Autonomous Systems
- Broad SotA
- C. G. Atkeson, J. G. Hale, F. Pollick, M. Riley, S. Kotosaka, S. Schaal, T. Shibata, G. Tevatia, A. Ude, S. Vijayakumar, E. Kawato, M. Kawato. (2000). Using Humanoid Robots To Study Human Behavior.
- CAT
- Calculation of Optimal Magnetic Force for Automatic Control Magnetic Force of the Window Cleaning Robot
- Can drones deliver?
- Can unmanned aerial systems (drones) be used for the routine transport of chemistry, hematology, and coagulation laboratory specimens?
- Chin Chang Ho, Karl F. MacDorman (2016), Measuring the Uncanny Valley Effect
- Chronological Document
- Chung-En Yu (2020). Humanlike robots as employees in the hotel industry: Thematic content analysis of online reviews.
- Civilian drones, privacy, and the federal-state balance
- Clairvoyance
- Cleaning
- Climbing cleaning robot for vertical surfaces
- Coaching Questions
- Coaching Questions Group 1
- Coaching Questions Group 11
- Coaching Questions Group 12
- Coaching Questions Group 13
- Coaching Questions Group 14
- Coaching Questions Group 15
- Coaching Questions Group 16
- Coaching Questions Group 17
- Coaching Questions Group 18
- Coaching Questions Group 2
- Coaching Questions Group 3
- Coaching Questions Group 4
- Coaching Questions Group 5
- Coaching Questions Group 7
- Coaching Questions Group 8
- Code group5 2020
- Collected interviews
- Comparison motion planning algorithms
- Conclusie PRE2Groep2
- Control for Dummies
- Cost function 2016 a2
- DMC: Tips and Tricks
- Daniël Pijnenborg
- Decision tree - Group 4 - 2018/2019, Semester B, Quartile 3
- Deelvragen
- Deliverables and milestones of group 12
- Delivery platform for unmanned areal vehicles
- Dense topological maps and partial pose estimation for visual control of an autonomous cleaning robot
- Design and Control of an Unmanned Aerial Vehicle for Autonomous Parcel Delivery with Transition from Vertical Take-off to Forward Flight
- Design and Kinematic Analysis of Tethered Guiding Vehicle (TGV) for façade window cleaning
- Design and stability analysis of a novel wall-climbing robotic platform (ROPE RIDE)
- Design of a small-scale autonomous amphibious vehicle
- Detection Skill
- Development of a High Efficiency and High Reliable Glass Cleaning Robot with a Dirt Detect Sensor
- Dieter Vanderelst, Alan Winfield (2017), Rational imitation for robots: the cost difference model
- Documents Ruud
- Documents Ruud van den Bogaert
- Doering, M., & Glas, D., & Ishiguro, H., (2019). Modeling Interaction Structure for Robot Imitation Learning of Human Social Behavior.
- Done
- Drive trough a corridor
- Drone-Aided Healthcare Services for Patients with Chronic diseases in Rural Areas
- Drone Operated Delivery Receptacle
- Drone Referee - MSD 2017/18
- Drone Referee - MSD 2018/9
- Drone delivery models for healthcare
- Drone shipping versus truck delivery in a cross-docking system with multiple fleets and products
- Drone transport of microbes in blood and sputum laboratory specimens
- Drone transportation of blood products
- Drones in Logistics: A Feasible Future or a waste of effort
- E-box/Install manual
- E-box/Install manual/FAQ
- E-box/Students Manual
- E-box/User manual
- EDrive
- EUTAFT Log
- EUTAFT Software
- Embedded Motion Control/Assignments
- Embedded Motion Control/Corridor competition 2015
- Embedded Motion Control/Corridor competition 2016
- Embedded Motion Control/Corridor competition 2017
- Embedded Motion Control/Escape Room Competition 2018
- Embedded Motion Control/Extra Test Slots
- Embedded Motion Control/Goal
- Embedded Motion Control/Group Blogs
- Embedded Motion Control/Hardware
- Embedded Motion Control/Hospital Competition 2018
- Embedded Motion Control/Hospital Room Competition 2019
- Embedded Motion Control/Introduction
- Embedded Motion Control/Lego Mindstorms Installation
- Embedded Motion Control/Maze competition 2015
- Embedded Motion Control/Maze competition 2016
- Embedded Motion Control/Maze competition 2017
- Embedded Motion Control/Tutorials/Obtaining laser and odometry data
- Embedded Motion Control/Tutorials/Setting up the PICO simulator 2015
- Embedded Motion Control/Tutorials/Setting up the PICO simulator 2016
- Embedded Motion Control/Tutorials/Setting up the PICO simulator 2017
- Embedded Motion Control/Tutorials/Setting up the PICO simulator 2018
- Embedded Motion Control/Tutorials/Setting up the PICO simulator New
- Embedded Motion Control/Ubuntu Installation
- Embedded Motion Control 2012/Contact Details
- Embedded Motion Control 2012/Goal
- Embedded Motion Control 2012 Group 1
- Embedded Motion Control 2012 Group 10
- Embedded Motion Control 2012 Group 11
- Embedded Motion Control 2012 Group 2
- Embedded Motion Control 2012 Group 3
- Embedded Motion Control 2012 Group 4
- Embedded Motion Control 2012 Group 5
- Embedded Motion Control 2012 Group 6
- Embedded Motion Control 2012 Group 7
- Embedded Motion Control 2012 Group 8
- Embedded Motion Control 2012 Group 9
- Embedded Motion Control 2013/Contact Details
- Embedded Motion Control 2013/FAQ
- Embedded Motion Control 2013/FinalPresentations
- Embedded Motion Control 2013/Goal
- Embedded Motion Control 2013 Group 1/Meeting 20130904
- Embedded Motion Control 2013 Group 1/Meeting 20130911
- Embedded Motion Control 2013 Group 1/Meeting 20130918
- Embedded Motion Control 2013 Group 10
- Embedded Motion Control 2013 Group 11
- Embedded Motion Control 2013 Group 2
- Embedded Motion Control 2013 Group 3
- Embedded Motion Control 2013 Group 5
- Embedded Motion Control 2013 Group 7/Recap2
- Embedded Motion Control 2013 Group 7/Recap3
- Embedded Motion Control 2013 Group 7/Recap4
- Embedded Motion Control 2013 Group 8
- Embedded Motion Control 2013 Group 8/Minute 20130906
- Embedded Motion Control 2013 Group 8/Minute 20130913
- Embedded Motion Control 2013 Group 9
- Embedded Motion Control 2014/Contact Details
- Embedded Motion Control 2014/Goal
- Embedded Motion Control 2014 Group 1/Meeting 20140502
- Embedded Motion Control 2014 Group 1/Meeting 20140512
- Embedded Motion Control 2014 Group 1/Meeting 20140514
- Embedded Motion Control 2014 Group 1/Meeting 20140515
- Embedded Motion Control 2014 Group 1/Meeting 20140516
- Embedded Motion Control 2014 Group 1/Meeting 20140521
- Embedded Motion Control 2014 Group 1/Meeting 20140528
- Embedded Motion Control 2014 Group 1/Meeting 20140606
- Embedded Motion Control 2014 Group 1/Meeting 20140611
- Embedded Motion Control 2014 Group 1/Meeting 20140620
- Embedded Motion Control 2014 Group 10
- Embedded Motion Control 2014 Group 12
- Embedded Motion Control 2014 Group 13
- Embedded Motion Control 2014 Group 2
- Embedded Motion Control 2014 Group 3
- Embedded Motion Control 2014 Group 4
- Embedded Motion Control 2014 Group 5
- Embedded Motion Control 2014 Group 7
- Embedded Motion Control 2014 Group 8
- Embedded Motion Control 2014 Group 9
- Embedded Motion Control 2015/Contact Details
- Embedded Motion Control 2015/FAQ
- Embedded Motion Control 2015 Group 10
- Embedded Motion Control 2015 Group 11
- Embedded Motion Control 2015 Group 1 - Week 5
- Embedded Motion Control 2015 Group 2 Initial Design
- Embedded Motion Control 2015 Group 3/Archive
- Embedded Motion Control 2015 Group 3/Previous ideas
- Embedded Motion Control 2015 Group 4
- Embedded Motion Control 2015 Group 5
- Embedded Motion Control 2015 Group 6
- Embedded Motion Control 2015 Group 7
- Embedded Motion Control 2015 Group 8
- Embedded Motion Control 2015 Group 9
- Embedded Motion Control 2016/Contact Details
- Embedded Motion Control 2016/FAQ
- Embedded Motion Control 2016 Group 1/Geometry Detection
- Embedded Motion Control 2016 Group 3
- Embedded Motion Control 2016 Group 4
- Embedded Motion Control 2016 Group 5
- Embedded Motion Control 2016 Group 6
- Embedded Motion Control 2016 Group 7
- Embedded Motion Control 2017/Contact Details
- Embedded Motion Control 2017/FAQ
- Embedded Motion Control 2017 Group 1
- Embedded Motion Control 2017 Group 10
- Embedded Motion Control 2017 Group 2 Minutes
- Embedded Motion Control 2017 Group 4
- Embedded Motion Control 2017 Group 5
- Embedded Motion Control 2017 Group 5 Meetings Overview
- Embedded Motion Control 2017 Group 5 test
- Embedded Motion Control 2017 Group 9
- Embedded Motion Control 2018/Contact Details
- Embedded Motion Control 2018/FAQ
- Embedded Motion Control 2018 Group 2
- Embedded Motion Control 2018 Group 3
- Embedded Motion Control 2018 Group 4
- Embedded Motion Control 2018 Group 5
- Embedded Motion Control 2018 Group 6
- Embedded Motion Control 2018 Group 7
- Embedded Motion Control 2018 Group 9
- Embedded Motion Control 2019 Group 1
- Embedded Motion Control 2019 Group 2
- Embedded Motion Control 2019 Group 6
- Embedded Motion Control 2019 Group 7
- Embedded Motion Control 2019 Group 8
- Embedded Motion Control 2019 Group 9
- Embedded Motion Control 2023/Contact Details
- Embedded Motion Control map 2019
- Energy efficient drinking water purification system using TiO2 solar reactor with traditional methods
- Enquête vragen
- Experimental comparison of drag-wiper and roller-wiper glass-cleaning robots
- Extended Cohn-Kanade (CK+)
- Extended specifications
- Extensive version planning
- FMBS tool
- FRF Measurements
- Fddd
- Feedback meeting 12-10
- Feedback to user needs, requirements and preferences
- Feedback van docenten
- Feedback van docenten 5-10
- Field Line predictor
- Field line estimatore
- Filtration characteristics of threaded microfiber water filters
- Firefly Eindhoven - Control and Coordination
- Firefly Eindhoven - Ground Robots
- Firefly Eindhoven - Introduction
- Firefly Eindhoven - LED Animation
- Firefly Eindhoven - Light Design
- Firefly Eindhoven - Localization - Top Camera
- Firefly Eindhoven - Localization - Ultrasound
- Firefly Eindhoven - Localization - Ultrawideband
- Firefly Eindhoven - Localization - Verax
- Firefly Eindhoven - Operator Manual
- Firefly Eindhoven - Remaining Sensors
- Firefly Eindhoven - Robot Love and GLOW
- Firefly Eindhoven - Three-Drone Visualization and Simulation
- Firefly Eindhoven - Trajectory App
- Firefly Eindhoven - Vision and mission
- Firefly Eindhoven - Website
- First project: Braille tablet
- Flight Control and Hardware Design of Multi-Rotor Systems
- Focus on subject
- Football Table Motion
- Football Table RL
- Football Table Simulation Visualization Tool
- Football Table Table
- Football Table Vision
- Frank blinde mensen
- Frank van Heeswijk
- From a Robotic Vacuum Cleaner to a Robot Companion: Acceptance and Engagement in Domestic Environments
- Functies en technologieën
- Function definition and concepts g5
- G5 use analysis
- GPS Guided Autonomous Drone
- Gebaren
- Gebruik van TwinCAT
- Goetz, J., & Kiesler, S., & Powers, A., (2003). Matching Robot Appearance and Behavior to Tasks to Improve Human-Robot Cooperation.
- Groep03 Enquêtes
- Groep03 interviews
- Ground-Water-Level Monitoring and the Importance of Long-Term Water-Level Data
- Ground water recharge and age-depth profiles of intensively exploited groundwater resources in northwest India
- Group2-19-1 Week1
- Group3 2017 Initial Design
- Group 12: State of the Art
- Group 3: Marvin, Isidoros, Lotte
- H. Ishiguro, T. Ono, M. Imai, T. Maeda, T. Kanda, R. Nakatsu. (2001). Robovie: An Interactive Humanoid Robot.
- HRI–" In the wild” In Rural India: A Feasibility Study
- Hashimoto, M., & Yokogawa, C., (2006). Development and Control of a Face Robot Imitating Human Muscular Structures.
- Hayley Robinson, Bruce MacDonald, Ngaire Kerse, Elizabeth Broadbent (2013), The psychological effects of a companion robot: a randomized controlled trial, JAMDA
- Here
- Hexapod
- Huidige middelen / technologieën die blinden helpen in het dagelijks leven
- IPC
- Ide
- Implementation of glass-curtain-wall cleaning robot driven by double flexible rope
- Implementation of the motion planning algorithms
- Implementing Delivery Drones in Logistics Business Process: Case of Pharmaceutical Industry
- Individual wiki page - collision avoidance
- Inferring the Effects of Wiping Motions based on Haptic Perception
- Information sheet
- Initial Design
- Intake questionnaire
- Integration Project SandC
- Integration Project Systems and Control 2013 Group 1
- Integration Project Systems and Control 2013 Group 2
- Integration Project Systems and Control 2013 Group 3
- Integration Project Systems and Control 2013 Group 4
- Integration Strategy Robotic Drone Referee
- Interview met Brandweer Eindhoven
- Interview vragen
- Job Nijenhuis
- Kanda, T. et al. (2004). Development and Evaluation of Interactive Humanoid Robots.
- Karen
- Kinect Angles Calculation Script
- LED script
- Landing Pad For Unmanned Aerial Vehicle Delivery
- Latex tricks to reduce the number of pages of articles
- Lfke;gket;lgk;l
- Li, D. et al. (2010). A Cross-cultural Study: Effect of Robot Appearance and Task.
- Limitations of the model
- Link
- Link to archive needed (spreadsheet only accessible by TU/e entities)
- Links
- List
- List of requirements
- Literature Sleeping Temperature
- Lknkjnnj
- Logbook Group8
- Logbook Group 13
- Logbook group04
- Logbook group05
- Logistics support for a delivery drone fleet
- MATLAB code performance indicators
- MATLAB code turning motion
- MRC/FullExample
- MRC/OpenCV
- MRC/Tutorials/JSON Parsing
- MRC/Tutorials/Obtaining laser, odometry, and control effort data
- MRC/Tutorials/Setting up an IDE
- MRC/Tutorials/Setting up the PICO simulator
- MRC/Tutorials/Sharing your project through git
- MRC/Tutorials/Towards an autonomous robot
- MRC/Using Pico
- MRC/WallfollowerCode
- Machine-readable delivery platform for automated package delivery
- Mainjava2016groep2
- Marco Boers
- Marco onderwerp onderzoek
- Masahiro Mori (2012), Karl F. MacDorman and Norri Kageki (1970), The Uncanny Valley
- Maze recording
- Maze simulation
- Measurement plan
- Meet en greet
- Meeting 19-10
- Meetings2016-1-groep2
- Mendeley web import tool
- Metal Matrix Composite
- Method and system for detecting objects external to a vehicle
- Method and system for drone deliveries to vehicles in route
- Methods, systems and devices for delivery drone security
- Middelen beschikbaar bij visio eindhoven
- Million Song Dataset
- Minutes/16-03-17
- Minutes tutor meetings Group 10
- Misc documents Ruud
- Misc documents swerve
- Mishra, A.K., Skubic, M., & Abbott, C. (2015). Development and preliminary validation of an interactive remote physical therapy system. 2015 37th Annual International Conference of the IEEE Engineering in Medicine and Biology Society (EMBC), 190-193.
- Mishra, A.K. et al. (2015). Development and preliminary validation of an interactive remote physical therapy system. 2015 37th Annual International Conference of the IEEE Engineering in Medicine and Biology Society (EMBC), 190-193.
- Mobile Robot Control 2020 Group 11
- Mobile Robot Control 2020 Group 2
- Mobile Robot Control 2020 Group 3
- Mobile Robot Control 2020 Group 4
- Mobile Robot Control 2020 Group 5
- Mobile Robot Control 2020 Group 7
- Mobile Robot Control 2020 Group 8
- Mobile Robot Control 2020 Group 9
- Mobile Robot Control 2021 Group 1
- Mobile Robot Control 2021 Group 2
- Mobile Robot Control 2021 Group 4
- Mobile Robot Control 2021 Group 5
- Mobile Robot Control 2021 Group 6
- Mobile Robot Control 2021 Group 7
- Mobile Robot Control 2023 Bender
- Mobile Robot Control 2023 Group 1
- Mobile Robot Control 2023 Group 10
- Mobile Robot Control 2023 Group 11
- Mobile Robot Control 2023 Group 12
- Mobile Robot Control 2023 Group 13
- Mobile Robot Control 2023 Group 14
- Mobile Robot Control 2023 Group 15
- Mobile Robot Control 2023 Group 16
- Mobile Robot Control 2023 Group 2
- Mobile Robot Control 2023 Group 3
- Mobile Robot Control 2023 Group 4
- Mobile Robot Control 2023 Group 5
- Mobile Robot Control 2023 Group 6
- Mobile Robot Control 2023 Group 7
- Mobile Robot Control 2023 Group 8
- Mobile Robot Control 2023 Group 9
- Mobile Robot Control 2023 HAL-9000
- Mobile Robot Control 2023 Optimus Prime