Application of Infinite Dimensional Linear Programming to IIR Filter Design with Time Domain Constraints

Document type:	Conference Papers
Peer reviewed:	Yes
Author(s):	Sven Nordebo, Zhuquan Zang
Title:	Application of Infinite Dimensional Linear Programming to IIR Filter Design with Time Domain Constraints
Conference name:	ICSP'98
Year:	1998
Pagination:	70-80, vol. 1
ISBN:	0 7803 4325 5
Publisher:	IEEE
City:	Beijing
Organization:	Blekinge Institute of Technology
Department:	Dept. of Signal Processing (Institutionen för signalbehandling) Dept. of Signal Processing S-372 25 Ronneby +46 455 38 50 00
Language:	English
Abstract:	Recently developed infinite dimensional linear programming techniques are used for the design of recursive filters with complex Chebyshev error criteria and time-domain constraints. The approach is applied to a numerical example which deals with the design of a Laguerre network as an equalization filter for a digital transmission channel.
Subject:	Signal Processing\Filter Design
Keywords:	Chebyshev filters, constraint theory, digital communication, equalisers, IIR filters, linear programming, recursive filters, signal processing, time-domain analysis