Course syllabus

Summary

VTA132 Digital Signal Processing for Audio Engineering and Active Sound and Vibration Control lp1+lp2 HT20 (7.5 hp)

Course is offered by the Division of Applied Acoustics at the Department of Architecture and Civil Engineering. Find the course PM here.

Contact details

Lecturers:

Wolfgang Kropp, phone: 772-2204, e-mail: wolfgang.kropp@chalmers.se

Jens Ahrens, phone: 772-2210, e-mail: jens.ahrens@chalmers.se

Course assistant:

Carl Andersson, e-mail: carl.andersson@chalmers.se

Course purpose

The course teaches fundamental methods in digital signal processing applicable in audio engineering and active noise and vibration. Audio signal processing is applied in both time and frequency domain and is ubiquitous in modern communication systems. The course also gives insight into various approaches for active control, the physics behind these approaches and their implementation.

Schedule

Find the course schedule here. All lectures, exercises, and lab work take place at the lecture hall of the Division of Applied Acoustics at Sven Hultins gata 8A. Ring the doorbell if the door is locked.

Course literature

Download all materials from the course website. Contact the instructors to obtain the password.

Course design

The course is composed of lectures, Matlab exercises with mandatory home assignments, and mandatory laboratory work. Find more details in the course PM.

Changes made since the last occasion

n.a.

Learning objectives and syllabus

Learning objectives:

  • Understand, explain, and implement the most common digital audio signal processing methods
  • Understand, explain and apply the physics behind typical active noise control solutions for air-borne sound and structure borne sound
  • Understand, explain and apply the signal processing theory required for the application of active noise control solutions
  • Design, implement and evaluate filter functions on a DSP
  • Define performance requirements as goal function for an active noise control system
  • Formulate and solve the problem of noise control by means of active control
  • Model and simulate the implementation of an active control system
  • Design, implement an active control system for a real life problem.
  • Evaluate the active control system virtually and experimentally
  • Carry out the different steps of the work inside a team with distributed tasks
  • Communicate results colleagues and teachers in appropriate form

Link to the syllabus on Studieportalen. Study plan at The Student Portal.

Examination form

Examination and grading are based on home assignments and a written report on the project work.