Constraint programming

5 credits

30.0 h + 15.0 h

Teacher(s)

Deville Yves; Schaus Pierre (compensates Deville Yves);

Language

English

Main themes

Constraints and domains
Practical aspects of constraint solvers
Constraint Satisfaction Problems (CSP)
Models and languages for constraint programming
Methods and techniques for constraint solving (consistency, relaxation, optimization, search, linear programming, global constraints, ...)
Search techniques and strategies
Problem modelling and resolution
Applications to differents problem classes (e.g. planification, scheduling, ressource allocation, economics, robotics)

Aims

At the end of this learning unit, the student is able to :

Given the learning outcomes of the "Master in Computer Science and Engineering" program, this course contributes to the development, acquisition and evaluation of the following learning outcomes:

INFO1.1-3
INFO2.2-4
INFO5.4-5
INFO6.1, INFO6.4

Given the learning outcomes of the "Master [120] in Computer Science" program, this course contributes to the development, acquisition and evaluation of the following learning outcomes:

SINF1.M4
SINF2.2-4
SINF5.4-5
SINF6.1, SINF6.4

Students completing successfully this course will be able to

explain and apply techniques for solving Constraint Satisfaction Problems
solve simple problems involving CSP
explain foundations of models and languages for constraint solving
identify problem classes where constraint programming can be apply successfully
model simple problems in the form of constraints, and express these models in a constraint programming language, including search strategies.

Students will have developed skills and operational methodology. In particular, they have developed their ability to:

master rapidly a new programming language;
use technical documents to deepen their knowledge of a topic.

The contribution of this Teaching Unit to the development and command of the skills and learning outcomes of the programme(s) can be accessed at the end of this sheet, in the section entitled “Programmes/courses offering this Teaching Unit”.

Content

Introduction to constraint programming
COMET: a constraint programming language
Propagation
Searching
Modeling
Designing constraints
Global constraints
Constraint programming and Mixed Integer programming
Scheduling
Continuous domain

Teaching methods

lectures
practicals : 2 problem sets and 1 bigger project performed by group of 2

Evaluation methods

Project (10% of the final grade)
Problem sets (15% of the final grade)
Written examn (60% of the final grade)

In case of failure of the note for projects + problems, the weighting of those parts will be greater.
Project and problem sets are mandatory during the semester of the course and cannot be repeated for the second examination session.

Online resources

https://moodleucl.uclouvain.be/course/view.php?id=9158

Bibliography

Livres de référence

C. Lecoutre, Constraint Networks, Wiley, 2009
K. Apt. Principles of Constraint Programming. Cambridge University Press, 2003
Rina Dechter. Constraint Processing. Morgan Kaufmann, 2004
F. Rossi, P. Van Beek, T. Walsh (eds). Handbook of Constraint Programming. Elsevier 2006.
Kim Marriott, Peter J. Stuckey. Programming with Constraints. An Introduction.MIT Press, 1998.
P. Van Hentenryck. The OPL Optimization Programming Language. The MIT Press, 1999.

Faculty or entity

INFO

Programmes / formations proposant cette unité d'enseignement (UE)

Title of the programme

Sigle

Credits

Prerequisites

Aims

Master [120] in Data Science Engineering

DATE2M

Master [120] in Computer Science and Engineering

INFO2M

Master [120] in Computer Science

SINF2M

Master [120] in data Science: Information technology

DATI2M