Paper Info
Title
Noise Reduction in Two-Dimensional Recursive Digital Filters with Discrete Optimized Error Feedback Coefficients.
Abstract
This paper treats the minimization problem for roundoff noise in two-dimensional (2-D) recursive digital filters with an error feedback (EF). The EF is known as an available scheme for the reduction of roundoff noise, and this can be achieved by extracting a roundoff error from the quantizer and feeding it back to the adder. Since the EF circuit is an additional device of the digital filter, the bit length of the coefficients should be as short as possible for the fast arithmetic and low-cost realization. In this paper, we propose an algorithm to optimize the EF coefficients in a discrete space. The proposed algorithm is based on the branch and bound method by estimating the lower bound of the optimal solution, and the optimality of the obtained solution can be guaranteed. Finally, we give a numerical example to demonstrate the effectiveness of the proposed method, and show the optimal solution can be found without using the round-robin algorithm.
Year
DOI
Venue
2012
10.1007/s00034-011-9376-8
Circuits Systems and Signal Processing
Keywords
Field
DocType
Two-dimensional recursive digital filters, Error feedback, Branch and bound method, Finite word-length realization, Roundoff noise
Noise reduction,Bit-length,Mathematical optimization,Digital filter,Adder,Round-off error,Control theory,Upper and lower bounds,Quantization (signal processing),Mathematics,Discrete space
Journal
Volume
Issue
ISSN
31
4
1531-5878
Citations 
PageRank 
References 
4
0.40
5
Authors
3
Name
Order
Citations
PageRank
Masayoshi Nakamoto16111.70
Takao Hinamoto215850.09
Shuichi Ohno356155.04