Module 15267 (2011)

Syllabus page 2011/2012

06-15267
Intelligent Robotics (Extended)
Level 4/M

Jeremy Wyatt
20 credits in Semester 1

Links | Outline | Aims | Outcomes | Prerequisites | Teaching | Assessment | Books | Detailed Syllabus

The Module Description is a strict subset of this Syllabus Page. (The University module description has not yet been checked against the School's.)

Relevant Links

Resources

Outline

Aims

The aims of this module are to:

  • give an appreciation of the issues that arise when designing complete, physically embodied autonomous agents
  • introduce some of the most popular methods for controlling autonomous mobile robots
  • give hands on experience of engineering design
  • encourage independent thought on possible cognitive architectures for autonomous agents

Learning Outcomes

On successful completion of this module, the student should be able to: Assessed by:
1design, build and program simple autonomous robots Team Project
2implement standard signal processing and control algorithms Team Project
3describe and analyse robot processes using appropriate methods Team Project
4write a detailed report on a robot project Team Project
5carry out and write up investigations using appropriate experimental methods Team Project
6show appreciation of the research literature in one subfield of intelligent robotics Presentation

Restrictions, Prerequisites and Corequisites

Restrictions:

Available only to School of Computer Science students; registration limited to approx. 42 in combination with 06-13520 (Intelligent Robotics). May not be taken by anyone who has taken or is taking 06-13520 (Intelligent Robotics).

Prerequisites:

None

Co-requisites:

None

Teaching

Teaching Methods:

Approximately 18 lectures, 6 student presentations and 24 laboratory sessions

Contact Hours:

50

Assessment

  • Sessional: Continuous assessment (100%).
  • Supplementary (where allowed): None; the module may only be repeated.
  • The continuous assessment consists of: a writeup and demonstration of an autonomous robot project designed and constructed by each team (70%); oral presentation of an overview of an area of intelligent robotics research (30%).

Recommended Books

TitleAuthor(s)Publisher, Date
Probabilistic RoboticsS Thrun, W Burgard, D FoxMIT Press, 2005
Computational Principles of Mobile RoboticsG Dudek, M Jenkin Cambridge University Press, 2000
Behavior Based RoboticsR ArkinMIT Press, 1998
Robotic Explorations: A Hands-on Introduction to EngineeringF MartinAddison-Wesley, 2001
Vehicles: Experiments in Synthetic PsychologyV BraitenbergMIT Press, 1984
Mobile Robotics: A practical introductionU NehmzowSpringer Verlag, 2000
Robot LearningS Mahadevan and J ConnellKluwer Academic, 1993
Mobile Robots: Inspiration to Implementation (2nd ed.)J Jones, B Seiger and A FlynnAK Peters, 1999

Detailed Syllabus

  1. Introduction
    • What is robotics?
    • Robotics and AI
    • Embedded Systems
    • Agent-Task-Environment model
    • Embodied Systems
    • Synthetic approaches to science
  2. Sensors and signal processing
    • Common sensors and their properties
    • 1D signal processing
    • Vision
  3. Planning approaches to robot control
    • STRIPS and SHAKEY
    • Robot kinematics
    • Limitations of planning approaches
  4. Control Theory
    • Feedback, feedforward and open loop control
    • Linear first order lag processes
    • Limitations of control theory
  5. Probability Based Approaches
    • Markov Decision Processes (MDPs)
    • Partially Observable Markov Decision Processes
    • Navigation using POMDPs
  6. Kinematics and Motion Planning
    • Kinematics of differential drive robots
    • Probabilistic road map planning
  7. Behaviour-Based Control
    • The subsumption architecture
    • Hybrid architectures
    • Formalising behaviour based control
  8. Adaptive approaches to robot control
    • Reinforcement learning for control
    • Model based learning approaches to control
    • Learning maps
    • Evolutionary approaches
  9. Architectures for control
    • CAS
    • ROS
  10. Current research topics
    • Learning for manipulation
    • Gaze control
    • Planning visual search

Last updated: 26 September 2011

Source file: /internal/modules/COMSCI/2011/xml/15267.xml

Links | Outline | Aims | Outcomes | Prerequisites | Teaching | Assessment | Books | Detailed Syllabus