Phelma Formation 2022

Digital Signal Processing - 4PMBDSP6

  • Number of hours

    • Lectures 18.0
    • Projects 0
    • Tutorials 12.0
    • Internship 0
    • Laboratory works 0

    ECTS

    ECTS 1.5

Goal(s)

Acquisition of necessary background for implementing digital signal processing methods and also elementary knowledge for random signal processing.

Contact Bertrand RIVET

Content(s)

Digital signal processing :

  • Sampling (brief recall) theorem and quantization
  • Fourier Transform of discrete signal
  • Discrete convolution
  • Digital filter with finite impulse response (FIR)
  • Digital filters with inifinite impulse response (IIR) : first order and second order cells, stability analysis, ...
  • Digital filter synthesis

Random signal analysis :

  • General description, statistical properties of random signal
  • Statistical correlation
  • Stationnary signal, Wiener-Kitchine theorem
  • White noise, filtering of a random signal


Prerequisites

Basis of signal processing: continuous time signal processing.
Fourier transform, signal representations, linear filtering and sampling.

Test

Semester 8 - The exam is given in english only 

SESSION NORMALE
Evaluation rattrapable
Examen individuel écrit de 2h
Conditions : "All documents are forbidden: only one A4 original handwritten sheet is allowed.
The use of cell phone or any electronic devices is forbidden. The use of calculators is prohibited."

SESSION DE RATTRAPAGE
Examen individuel écrit de 2h
Conditions : "All documents are forbidden: only one A4 original handwritten sheet is allowed.
The use of cell phone or any electronic devices is forbidden. The use of calculators is prohibited."



N1 = DS1
N2 = DS2

Additional Information

This course brings 2.0 ECTS to students in TU Syst com elect (SEI S8)

Semester 8 - This course is given in english only EN
Course list
Curriculum->SEI->Semester 8
Curriculum->BIOMED->Semester 8

Bibliography

  • Traitement numérique du signal. Maurice Bellanger. Masson, Paris.
  • Techniques Modernes de Traitement numérique des Signaux. Murat Kunt. Presse Polytechniques et Universitaires Romandes, Lausanne, 1991.