Dead-end pages

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The following pages do not link to other pages in Control Systems Technology Group.

Showing below up to 100 results in range #51 to #150.

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  13. 4SC020 Design Document.pdf
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  19. == Week 1 ==
  20. = State of the Art Literature Study =
  21. A. Prakash, W. A. Rogers. (2015). Why Some Humanoid Faces Are Perceived More Positively Than Others: Effects of Human-Likeness and Task.
  22. AI articles not yet on the wiki
  23. ARParrotGPS PRE2 Groep1
  24. AT-LAB PCs
  25. A Gecko Inspired Fluid Driven Climbing Robot
  26. A High Integrity IMU/GPS Navigation Loop for Autonomous Land Vehicle Applications
  27. A Moving Solar Roof for a Hybrid Solar Vehicle
  28. A Multi-Modality Mobility Concept for a Small Package Delivery UAV
  29. A Path Motion Planning For Humanoid Climbing Robot
  30. A Small Window-Cleaning Robot for Domestic Use
  31. A Study of Omnidirectional Quad-Screw-Drive Configurations for All-Terrain Locomotion
  32. A cost-benefit analysis of Amazon Prime Air
  33. A cost-optimization model in multi-agent system routing for drone delivery
  34. A dynamic colour perception system for autonomous robot navigation on unmarked roads
  35. A multi-objective green UAV routing problem
  36. A survey of climbing robots: Locomotion and adhesion
  37. A survey on coverage path planning for robotics
  38. A wall climbing robot for inspection use
  39. Abubshait, A. & Wiese, E. (2017). You Look Human, But Act Like a Machine: Agent Appearance and Behavior Modulate Different Aspects of Human–Robot Interaction.
  40. Acqgen DataAcquisition
  41. Adams, B. et al. (2000). Humanoid Robots: A New Kind of Tool.
  42. Advanced oxidation processes (AOP) for water purification and recovery
  43. Algorithm 1
  44. Algorithm 2
  45. Amazon Prime Air
  46. An Analysis of Water Collection Labor among Women and Children in 24 Sub-Saharan African Countries
  47. Analyse van prototypen
  48. Analysis of energy capture by vehicle solar roofs in conjunction with workplace plug-in charging
  49. Analytical modelling of suction cups used for window-cleaning robots
  50. Answers
  51. Appendix PRE2020 1 Group2
  52. Archive hyperlink needed
  53. Arduino code 1
  54. Arduino code 2
  55. Articles bart
  56. Articles lighting
  57. Asada M. K. F. MacDorman, H. Ishiguro, Y. Kuniyoshi. (2017). Cognitive developmental robotics as a new paradigm for the design of humanoid robots.
  58. Auto-Selection Of Package Delivery Location Based On Estimated Time Of Delivery
  59. AutoRef Honors2019 minutes
  60. AutoRef Honors2019 team
  61. AutoRef MSD 1819
  62. AutoRef MSD 2019-2020
  63. AutoRef manuals
  64. Autonomous Aerial Cargo/Utility system
  65. Autonomous Drones for Assisting Rescue Services within the context of Natural Disasters
  66. Autonomous Measurement Drone for Remote Dangerous Source Location Mapping
  67. Autonomous Refueling Stations
  68. Autonomous and automatic landing system for drones
  69. Autonoom vliegen links
  70. BEP Shaft Rescue Robot (2022/2023, Q3)
  71. Background ARS
  72. Bar-Cohen, Y., & Breazeal, C., (2003). Biologically inspired intelligent robots.
  73. Bartneck, C. et al. (2009). My Robotic Doppelgänger - A Critical Look at the Uncanny Valley
  74. Beamer with Sidebar
  75. Beantwoorde deelvragen
  76. Beantwoorden vraag waarom het een probleem is dat blinden en slechtzienden minder werken dan zienden.
  77. Beschrijving van 3 banen waar robotica eventueel zouden kunnen helpen
  78. Botsingdetectie
  79. Breazeal, C. & Scassellatie, B. (2002). Robots That Imitate Humans.
  80. Brenna D. Argall, Sonia Chernova, Manuela Veloso, Brett Browning (2008), A survey of robot learning from demonstration, Robotics and Autonomous Systems
  81. Broad SotA
  82. 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.
  83. CAT
  84. Calculation of Optimal Magnetic Force for Automatic Control Magnetic Force of the Window Cleaning Robot
  85. Can drones deliver?
  86. Can unmanned aerial systems (drones) be used for the routine transport of chemistry, hematology, and coagulation laboratory specimens?
  87. Chin Chang Ho, Karl F. MacDorman (2016), Measuring the Uncanny Valley Effect
  88. Chronological Document
  89. Chung-En Yu (2020). Humanlike robots as employees in the hotel industry: Thematic content analysis of online reviews.
  90. Civilian drones, privacy, and the federal-state balance
  91. Clairvoyance
  92. Cleaning
  93. Climbing cleaning robot for vertical surfaces
  94. Coaching Questions
  95. Coaching Questions Group 1
  96. Coaching Questions Group 11
  97. Coaching Questions Group 12
  98. Coaching Questions Group 13
  99. Coaching Questions Group 14
  100. Coaching Questions Group 15

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