Introduction to Artificial Intelligence
3
2018-2019
01000276
Computer Science
Portuguese
Face-to-face
SEMESTRIAL
6.0
Compulsory
1st Cycle Studies
Recommended Prerequisites
Programming courses, Mathematical Foundations.
Teaching Methods
Teaching methodologies:
- Seminar lectures with exposure of concepts (both theoretical and practical) materials and practice of concepts about the program
- Theoretical-practical classes with practice of CG concepts. These classes will be also used to introduce the individual practical works, its goals and fundamental ideas using the programming language "processing".
- Laboratory classes with practice of programming concepts in “Processing”
Adopted resources:
- Slides to support seminar lectures and knowledge synthesis.
Learning Outcomes
The goals are acquisition of solid base knowledge on the field of artificial intelligence in terms of: foundations, techniques and practical application. To serve this purpose the integrating concept of Agent is adopted. The development of agents of increasing complexity and capabilities inspired in three different metaphors – symbolic, connectionist and biological – is studied. Considering the key role they play, particular relevance is given to the concepts of state, state change operator, and state space.
The main competencies to be developed are:
Instrumental – analysis and synthesis, problem solving
Personal – critical thinking
Systemic - practical application of the theoretical knowledge; research
The secondary competences are:
Instrumental – organizing and planning
Personal – work in teams
Systemic – autonomous learning; creativity.
Work Placement(s)
NoSyllabus
1. Introduction
The. Defining Artificial Intelligence
B. Agents
ç. Rooms
d. Tasks
and. State, state change operator, state space
2. Fixed structure agents
The. Reactives
B. Demand
3. Agents with variable structure
The. Apprentices
B. Adaptive
4. Agent Society
5. Representation, Knowledge, Uncertainty, Reasoning
The following topics are covered for each type of agent:
i. Architecture
ii. Representation and reasoning
iii. Implementation according to metaphor: symbolic, connectionist, biological
iv. Application to problems.
Head Lecturer(s)
Fernando Jorge Penousal Martins Machado
Assessment Methods
Assessment
Project: 20.0%
Mini Tests: 20.0%
Exam: 60.0%
Bibliography
Daniel Shiffman, Learning Processing
Casey Reas, Ben Fry, Processing: a programming handbook for Visual Designers and Artists
Ira Greenberg, Processing: Creative coding and Computational Art
J. Foley, A. Van Dam, S. Feiner, J. Hughes, R. Philips, Introduction to Computer Graphics, Addison-Wesley.
D. Hearn, M. Baker, Computer Graphics, C Version, 2nd Edition, Prentice Hall
Apontamentos fornecidos pelo docente.