Journal ArticleDOI
Discrete coefficient FIR digital filter design based upon an LMS criteria
TLDR
In this article, the remaining unquantized coefficients of a FIR linear phase digital filter when one or more of the filter coefficients takes on discrete values are optimized using the least square response error.Abstract:
An efficient method optimizing (in the least square response error sense) the remaining unquantized coefficients of a FIR linear phase digital filter when one or more of the filter coefficients takes on discrete values is introduced. By incorporating this optimization method into a tree search algorithm and employing a suitable branching policy, an efficient algorithm for the design of high-order discrete coefficient FIR filters is produced. This approach can also be used to design FIR filters on a minimax basis. The minimax criterion is approximated by adjusting the least squares weighting. Results show that the least square criteria is capable of designing filters of order well beyond other approaches by a factor of three for the same computer time. The discrete coefficient spaces discussed include the evenly distributed finite wordlength space as well as the nonuniformly distributed powers-of-two space.read more
Citations
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Dissertation
Robust tools for weighted Chebyshev approximation and applications to digital filter design
TL;DR: This thesis presents an ongoing study on Remez-type algorithms for rational approximation problems (which can be used for infinite impulse response (IIR) filter design and the difficulties hindering their robustness), and proposes a (quasi-)optimal approach based on the LLL algorithm which is more tractable than exact approaches.
Journal ArticleDOI
Design of minimum phase FIR digital filters
N.N. Chit,J.S. Mason +1 more
TL;DR: In this article, a new adaptive method for designing minimum phase FIR filters is presented, which requires a gain specification in a manner identical to the linear phase case conditions for optimality are investigated in terms of the zeros' configuration, equiripple characteristics, minimax and LMS criteria.
Journal ArticleDOI
Design of High-Order Extrapolated Impulse Response FIR Filters with Signed Powers-of-Two Coefficients
TL;DR: Simulation results show that the proposed method can effectively and efficiently design high-order SPT filters, including Hilbert transformers and half-band filters with SPT coefficients.
Proceedings ArticleDOI
A New Binary Common Subexpression Elimination Method for Implementing Low Complexity FIR Filters
K. G. Smitha,A. P. Vinod +1 more
TL;DR: This paper proposes a new 4- bit Binary based CSE (BCSE) method which employs 4-bit common subexpressions (CSs) and shows an average adder reduction of 31.2 % over the conventional CSDbased CSE and 15% reduction over BSE.
Proceedings ArticleDOI
Fault-Tolerance with Graceful Degradation in Quality: A Design Methodology and its Application to Digital Signal Processing Systems
TL;DR: A novel "design-time" fault-tolerance methodology at architecture/circuit levels to improve the reliability of applications, where it is possible to classify computations into two categories- those which contribute to quality degradation and those which result in total system failure.
References
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Book
Integer programming
TL;DR: The principles of integer programming are directed toward finding solutions to problems from the fields of economic planning, engineering design, and combinatorial optimization as mentioned in this paper, which is a standard of graduate-level courses since 1972.
Book
Theory and application of digital signal processing
TL;DR: Feyman and Wing as discussed by the authors introduced the simplicity of the invariant imbedding method to tackle various problems of interest to engineers, physicists, applied mathematicians, and numerical analysts.
Journal ArticleDOI
Chebyshev Approximation for Nonrecursive Digital Filters with Linear Phase
T. Parks,J. McClellan +1 more
TL;DR: An efficient procedure for the design of finite-length impulse response filters with linear phase is presented, which obtains the optimum Chebyshev approximation on separate intervals corresponding to passbands and/or stopbands.