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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Journal ArticleDOI
A State Evaluation Adaptive Differential Evolution Algorithm for FIR Filter Design
TL;DR: The proposed State Evaluation Adaptive Differential Evolution algorithm (SEADE) is capable of improving the search performance of high dimensional optimization problems and is more efficient in design FIR digital filter using SEADE than conventional method like Parks-McClellan algorithm.
Proceedings ArticleDOI
New design methods of FIR filters with signed power of two coefficients based on a new linear programming relaxation with triangle inequalities
TL;DR: New design methods for linear phase FIR (finite impulse response) filters with signed power-of-two (SP2) coefficients based on a semi-definite programming (SDP) relaxation method can solve the design problems with low computational cost in comparison to traditional SDP relaxation methods.
Journal ArticleDOI
An interpolation technique for computing the DFT of a sparse sequence
TL;DR: An interpolation technique for the approximate computation of the DFT of a sparse sequence is presented, which is more efficient than FFT pruning, particularly for long sequences where the effectiveness of FFTPruning diminishes.
Dissertation
Un peu de théorie des nombres et de calcul formel au service de l'arithmétique des ordinateurs
TL;DR: Dans ce memoire, j'evoque les travaux de recherche que j'ai menes depuis mon doctorat, plus precisement d'approximation diophantienne, a l'evaluation de fonctions en machine.
Proceedings ArticleDOI
A novel method for discrete coefficient FIR digital filter design
Tolga Ciloglu,Z. Unver +1 more
TL;DR: A local search algorithm for discrete coefficient FIR filter design is presented and the minmax objective function is minimized by moving along the low gradient directions.
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.