After successful completion of the course, students are able to understand basic concepts and methods in acoustics and to use these methods to calculate the propagation of sound based on the solution of the Helmholtz/wave equation. Students will be able to understand and memorize basic concepts of acoustics (what is sound? what is a Fouriertransformation, ....). Students will learn to analyze problems in Acoustics and their components and will be able to find and apply the right tools and concepts to solve these problems.
Acoustics is concerned with the generation, propagation and perception of sound and combines research from different scientific disciplines like theoretical and applied mathematics, physics, mechanics, biology, psychology and many more. In the course we want to give an overview over some methods and models applied in acoustics. We will give an overview of the theoretical background as well as applications of these models. The course includes an introduction into basic concepts of acoustics, time frequency analysis of signals and numerical methods to solve the Helmholtz equation. These methods can be used to model and calculate for example the resonances of the human vocal tract, the efficiency on noise barriers or filter functions based on the geometry of the human ear (pinna) that are important for 3D audio.
Parallle to the lecture there are some kind of lecture notes, that cover all the topics of the lecture. However, the notes contain additional topics in the appendices, that will not be mentioned in the lecture, because of time restrictions