Course Behavior-Based Robotics
Bachelor PsychoBiology
This is the information of Winter 2019-2020
The course was first given in the academic year 2015-2016. The information on academic year's 2016-2017, 2017-2018 and 2018-2019 are also still available. The procedure to apply for this course is explained on a page for PsychoBiology students and on a page for students from other programmes.
Contents
This course gives an introduction to the principles, design and practice of intelligent behavior-based autonomous robot systems. Following a discussion of the relevant biological and psychological models of behavior, reactive behaviors are used as building blocks for more complex behaviors. With the more advanced behaviors the robot gets animal-like capacities as survival, adaption and interaction. Building such artificial system in practice could lead to interesting questions about the unique aspects of actual biological behavior.Learning objectives
- To develop an understanding of the possible relationships between animal behavior and robot control.
- To examine a wide range of biologically motivated robotic systems.
- To obtain a basic understanding of the design choices related to behavior-based robotic systems.
- To determine the appropriate role of world and self-knowledge within behavior-based robotic systems.
- To study biological models of hybrid reactive/deliberative systems.
- To explore the role of expectations, focus of attention and active perception within behavior-based perception.
- To understand why robots need to have learning capabilities.
- To recognize the different effects of perception and learning inside social behavior when compared to solitary robot behaviors.
- To consider the consequences of a robotic mind with regard to thought, consciousness, emotion and imagination.
Practical skills
In addition to the theoretical framework, you will also develop your programming skills by implementing behaviors directly on humanoid robots. A short summary of these objectives can be found back in this Study Guide.Schedule
The detailed schedule can be found at datanose.nl
Literature
For this course, a reader is produced containing the following four chapters of the Springer Handbook of Robotics.
- Francois Michaud and Monica Nicolescu, 'Behavior-Based Systems', Springer Handbook of Robotics, 2016, pp 307-328.
- Fumiya Iida and Auke Jan Ijspeert, 'Biologically Inspired Robots', Springer Handbook of Robotics, 2016, pp 2015-2034.
- Patrick van der Smagt, Michael A. Arbib, Giorgio Metta, 'Neurorobotics: From Vision to Action', Springer Handbook of Robotics, 2016, pp. 2069-2094.
- Gianmarco Veruggio, Fiorella Operto and George Bekey, 'Roboethics: Social and Ethical Implications', Springer Handbook of Robotics, 2016, pp. 2135-2160.
Reading guide
Those 4 chapters are your starting point for your essay, so should be read in the first two weeks of the course.- Wednesday January 9th: 'Behavior-Based Systems', Springer Handbook of Robotics, 2016, pp 307-328.
- Friday January 11th: 'Biologically Inspired Robots', Springer Handbook of Robotics, 2016, pp 2015-2034.
- Wednesday January 16th: 'Neurorobotics: From Vision to Action', Springer Handbook of Robotics, 2016, pp. 2069-2094.
- Friday January 18th: 'Roboethics: Social and Ethical Implications', Springer Handbook of Robotics, 2016, pp. 2135-2160.
Evaluation
The course is this year evaluated by the participants with a 7.7:
.
Links
- Georgia Tech: Robotics and Society (2017) by Ronald C. Arkin.
- Georgia Tech: Robotics and Society (2016) by Ronald C. Arkin.
- Georgia Tech: Autonomous Robotics (2014) by Ronald C. Arkin.
- Georgia Tech: Autonomous Robotics (2012) by Ronald C. Arkin.
- Stockholm University : Behaviour Based Robotics (2005) by Henrik I Christensen.
- North-Western University : Behaviour Based Robotics (2002) by Ian Horswill.
Last updated February 6, 2020
This web-page and the list of participants to this course is maintained by