Undergraduate Course: Agent Based Systems (Level 10) (INFR10049)
Course Outline
School | School of Informatics |
College | College of Science and Engineering |
Credit level (Normal year taken) | SCQF Level 10 (Year 3 Undergraduate) |
Availability | Available to all students |
SCQF Credits | 10 |
ECTS Credits | 5 |
Summary | Agent technology has emerged as a new area within Artificial Intelligence in the last two decades, exploring systems in which it is assumed that the computational components are autonomous, and interact with each other in a common environment. The aim of this course is to provide a comprehensive introduction to agents and multiagent systems. It covers a broad range of topics including agent architectures, agent interaction and communication, and game-theoretic methods and models of distributed rational decision making. |
Course description |
1. Basics
- Definitions of agency
- Properties of agents
2. Agent architectures
- Deductive reasoning agents
- Practical reasoning
- Reactive and hybrid agents
3. Agent interaction
- Agent communication
- Game-theoretic models of interaction
4. Distributed rational decision making
- Social choice and voting
- Coalition formation
- Resource allocation
- Bargaining
- Argumentation
5. Logics for multiagent systems
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Entry Requirements (not applicable to Visiting Students)
Pre-requisites |
Students MUST have passed:
Informatics 2D - Reasoning and Agents (INFR08010) OR
Informatics Research Review (INFR11034)
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Co-requisites | |
Prohibited Combinations | |
Other requirements | This course is open to all Informatics students including those on joint degrees. For external students where this course is not listed in your DPT, please seek special permission from the course organiser.
Informatics 2D - Reasoning and Agents or equivalent background for MSc Students. Logic Programming is strongly recommended.
Students must also have a basic knowledge of probability theory and a good command of propositional and first-order logic. |
Information for Visiting Students
Pre-requisites | None |
Course Delivery Information
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Academic year 2014/15, Available to all students (SV1)
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Quota: None |
Course Start |
Semester 2 |
Timetable |
Timetable |
Learning and Teaching activities (Further Info) |
Total Hours:
100
(
Lecture Hours 20,
Seminar/Tutorial Hours 8,
Summative Assessment Hours 2,
Programme Level Learning and Teaching Hours 2,
Directed Learning and Independent Learning Hours
68 )
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Assessment (Further Info) |
Written Exam
75 %,
Coursework
25 %,
Practical Exam
0 %
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Additional Information (Assessment) |
Two programming exercises.
You should expect to spend approximately 25 hours on the coursework for this course. |
Feedback |
Not entered |
Exam Information |
Exam Diet |
Paper Name |
Hours & Minutes |
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Main Exam Diet S2 (April/May) | | 2:00 | |
Learning Outcomes
- Describe and discuss different architectures for intelligent agents and interaction mechanisms for cooperative and competitive settings.
- Use abstract formal models of agents and agent interactions to analyse the properties of concrete designs.
- Explain the algorithmic and theoretical foundations of agents and multiagent systems, with an emphasis on knowledge-based and game-theoretic techniques.
- Be able to model, analyse and critically evaluate distributed systems using agent-based abstractions and related concepts.
- Design and implement agent-based systems using modern implementation platforms and agent programming languages.
- Design and conduct empirical experiments and evaluate the performance of implemented agent-based systems.
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Reading List
- M. Wooldridge. An Introduction to MultiAgent Systems, 2nd edition, John Wiley & Sons, 2009
- Y. Shoham and K. Leyton-Brown. Multiagent Systems: Algorithmic, Game Theoretic and Logical Foundations, Cambridge University Press, 2009. |
Contacts
Course organiser | Dr Michael Rovatsos
Tel: (0131 6)51 3263
Email: mrovatso@inf.ed.ac.uk |
Course secretary | Mrs Victoria Swann
Tel: (0131 6)51 7607
Email: Vicky.Swann@ed.ac.uk |
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© Copyright 2014 The University of Edinburgh - 12 January 2015 4:11 am
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