Performance Analysis of Different Inverse Filter Design Techniques Kulkarni Pranav R1,*, Datar A.V.2, Deshmukh Ajinkya1, Patil R.D.2 1School of Electronics Engineering, V.I.T. University, Vellore, Tamil Nadu, India 2Department of Electronics Engineering, P.V.P.I.T., Budhgaon, Sangli, Maharashtra, India *Corresponding Author: thepranav12@gmail.com
Online published on 4 November, 2017. Abstract In modern communication technology design of inverse filter i.e. channel equalizer on receiver side is important in order to combat the effects of channel distortion. In this paper we address different approaches of inverse filter design. The different approaches used are based on second order statistics methods such as Shank's algorithm, Wiener-Hopf equations (both FIR and IIR), LMS algorithm. We have have modeled communication channel as FIR filter as most of the communication channels can be modeled as FIR channel and followed above mentioned approaches to design an inverse filter in order to get back best estimate of original source signal. Simulation results show performance of these with respect to computational complexity, inverse filter order and SNR vs. BER plots. Above effects have been observed for different channel distortion values. Top Keywords Inverse filter, Channel equalization, least square method, Wiener-Hopf equations, Wiener IIR filters, LMS algorithm. Top |