1. A Survey of FIR Filter Design Techniques: Low-complexity, Narrow Transition-band and Variable Bandwidth
- Author
-
Abhijit Chandra and Subhabrata Roy
- Subjects
Finite impulse response ,Computational complexity theory ,business.industry ,Computer science ,020208 electrical & electronic engineering ,Bandwidth (signal processing) ,02 engineering and technology ,Sonar signal processing ,020202 computer hardware & architecture ,law.invention ,Hardware and Architecture ,law ,0202 electrical engineering, electronic engineering, information engineering ,Electronic engineering ,Wireless ,Electrical and Electronic Engineering ,Radar ,business ,Digital filter ,Software ,Digital signal processing - Abstract
In the present century, digital signal processing (DSP) approaches are considered to be one of the most powerful technologies which may shape the science and technology in coming decades. From 1970 onwards, a drastic revolution took place in a wider domain of DSP which has made it popular in several studies such as radar and sonar signal processing, digital televisions, wireless communication scenarios and other multimedia setup etc. Digital filters form the backbone of this DSP architecture and in point of fact the field of digital filter design has drawn justified recognition from the researchers throughout the world for the last 50 years. In connection to this, thousands of research articles may be found from the literature which had extensively addressed on the design of such filters. In order to meet the requirement of narrow transition-band, finite impulse response (FIR) filters are commonly assumed to be of higher order and accordingly it significantly enhances computational complexity. In regard to this, construction of hardware efficient digital filters had drawn significant consideration which aims to include minimum hardware elements during its application and consequently consumes less power. This review paper illustrates various techniques for the implementation of hardware efficient narrow transition-band FIR filter and investigates a number of favourable attributes which are capable in sustaining the stringent requirements of communication standards. A good number of relevant articles are taken from the literature so as to make a robust and complete review.
- Published
- 2021