Aims
At the end of this course, the students will be able to :
- Have a good understanding of and familiarity with random variables and stochastic processes ;
- Characterize and use stable processes and their spectral properties;
- Use the major estimators, and characterize their performences ;
- Synthetize predictors, filters and smoothers, in both Wiener or Kalman frameworks.
Main themes
The object of this course is to lead to a good understanding of stochastic processes, their most commonly used models and their properties, as well as the derivation of some of the most commonly used estimators for such processes : Wiener and Kalman filters, predictors and smoothers.
Content and teaching methods
The course is subdivided into four parts/chapters:
-Probabilities, random variables, moments, change of variables.
-Stochastic processes, independence, stability, ergodicity, spectral representation, classical models of stochastic processes.
-Estimation (for random variables) : biais, variance, bounds, convergence, asymptotic properties, classical estimators.
-Estimation (for random processes) : filtering, prediction, smoothing, Wiener and Kalman estimators.
-Learning will be based on courses interlaced with practical exercise sessions (exercises done in class or in the computer room using MATLAB). In addition, the training includes a project to be realized by groups of 2 or 3 students.
Other information (prerequisite, evaluation (assessment methods), course materials recommended readings, ...)
-Prerequisite : INMA 2700.
-Support : course notes, written by the two lecturers, are made available.
-Evaluation method : The evaluation will be based on a written exam made up of a few exercises (with use of the course textbook), and on an interview about the student's project.
Other credits in programs
ELEC21
|
Première année du programme conduisant au grade d'ingénieur civil électricien
|
(5 credits)
|
Mandatory
|
ELEC22
|
Deuxième année du programme conduisant au grade d'ingénieur civil électricien
|
(5 credits)
| |
FSA3DS/EL
|
Diplôme d'études spécialisées en sciences appliquées (électricité)
|
(5 credits)
| |
INFO22
|
Deuxième année du programme conduisant au grade d'ingénieur civil informaticien
|
(5 credits)
| |
INFO23
|
Troisième année du programme conduisant au grade d'ingénieur civil informaticien
|
(5 credits)
| |
MAP21
|
Première année du programme conduisant au grade d'ingénieur civil en mathématiques appliquées
|
(5 credits)
| |
MAP22
|
Deuxième année du programme conduisant au grade d'ingénieur civil en mathématiques appliquées
|
(5 credits)
| |
MAP23
|
Troisième année du programme conduisant au grade d'ingénieur civil en mathématiques appliquées
|
(5 credits)
| |
|