Feasible LID Systems: Transfer Functions and Stability

In course

Pariatur laborum fugiat enim sunt reprehenderit Lorem laboris anim. Excepteur excepteur officia non occaecat cupidatat. Sunt velit non dolor voluptate qui ullamco id nisi laborum. Ad quis eiusmod adipisicing officia elit exercitation nulla incididunt irure dolor. Ut sit nulla ullamco commodo ut elit mollit do ad.

Description

This lecture covers the concept of feasible LID systems, which are characterized by being implementable using a finite number of memory registers. It explains how feasible LID systems are governed by rational transfer functions and the importance of poles being inside the unit circle for stability. The lecture also delves into the implications of causality and stability in achievable time systems, emphasizing the necessity of the unit circle containment. Additionally, it explores the implementation parameters, complexity of calculations, and the historical perspective on the cost of operations in computing. The presentation concludes with discussions on direct and recursive implementations of filters, trellis implementation, and the significance of reflection coefficients in speech processing.

Instructor

duis ipsum

Officia officia elit nisi et sint. Mollit aute ullamco ea aute ex aliqua nulla est cupidatat reprehenderit qui. Ad amet ad deserunt magna fugiat. Est tempor fugiat exercitation sint fugiat consequat sit aliquip cillum elit in duis amet et. Aute non non laboris pariatur elit ullamco amet. Magna dolore aliquip duis occaecat.

Official source

https://mediaspace.epfl.ch/media/0_m9xsgs6k

About this result

This page is automatically generated and may contain information that is not correct, complete, up-to-date, or relevant to your search query. The same applies to every other page on this website. Please make sure to verify the information with EPFL's official sources.

Ontological neighbourhood

Information engineering

Control theory and engineering: Control theory

Related lectures (32)