Residue (QR) codes are presented. The key ideas behind this decoding technique are based on one-to-one mapping between the syndromes “S1 ” and correctable error patterns. Such algorithms determine the error locations directly by lookup tables without the operations of multiplication over a finite field. Moreover, the method of utilizing shiftsearch algorithm, to dramatically reduce the memory requirement is given for decoding QR codes. The algorithm has been verified through a software simulation that program in C-language. The new approach is modular, regular and naturally suitable for DSP software implementation
AbstractCodes capable of correcting byte (column) and line (row) unidirectional errors are given. Th...
AbstractIn a linear (n, k) code, a set of k coordinates is said to be an information set for the cod...
This work presents the development of complex digital signal processing algorithms using number theo...
The lookup table methods for decoding binary systematic Quadratic Residue (QR) code are presented i...
Abstract—Recently, a novel decoding procedure which is called the syndrome-weight determination for ...
International audienceIn a recent article, Yi et al. proposed an algorithm for the decoding of binar...
Abstract An algebraic decoding algorithm for the expurgated quadratic residue code of length 41 is p...
This paper investigates the error-correcting performance of (73,61,12) quadratic residue code over a...
The aim of this paper is to descript QR codes. First of all we focus on a description of a structure...
In this paper, a low-complexity decoder based on a neural network is proposed to decode binary quadr...
Abstract ⎯ In order to use Berlekamp-Massey algorithm to decode the (89, 45, 17) binary quadratic re...
In this letter, we study turbo product codes with quadratic residue codes (called QR-TPCs) as the co...
AN encoding in residue number systems allows construction of a class of nonlinear arithmetic error-c...
textIn this paper, we provide a generalization of binary quadratic residue codes to the cases of hig...
Includes bibliographical references (p. 39)Linear block codes are used in modern communication and d...
AbstractCodes capable of correcting byte (column) and line (row) unidirectional errors are given. Th...
AbstractIn a linear (n, k) code, a set of k coordinates is said to be an information set for the cod...
This work presents the development of complex digital signal processing algorithms using number theo...
The lookup table methods for decoding binary systematic Quadratic Residue (QR) code are presented i...
Abstract—Recently, a novel decoding procedure which is called the syndrome-weight determination for ...
International audienceIn a recent article, Yi et al. proposed an algorithm for the decoding of binar...
Abstract An algebraic decoding algorithm for the expurgated quadratic residue code of length 41 is p...
This paper investigates the error-correcting performance of (73,61,12) quadratic residue code over a...
The aim of this paper is to descript QR codes. First of all we focus on a description of a structure...
In this paper, a low-complexity decoder based on a neural network is proposed to decode binary quadr...
Abstract ⎯ In order to use Berlekamp-Massey algorithm to decode the (89, 45, 17) binary quadratic re...
In this letter, we study turbo product codes with quadratic residue codes (called QR-TPCs) as the co...
AN encoding in residue number systems allows construction of a class of nonlinear arithmetic error-c...
textIn this paper, we provide a generalization of binary quadratic residue codes to the cases of hig...
Includes bibliographical references (p. 39)Linear block codes are used in modern communication and d...
AbstractCodes capable of correcting byte (column) and line (row) unidirectional errors are given. Th...
AbstractIn a linear (n, k) code, a set of k coordinates is said to be an information set for the cod...
This work presents the development of complex digital signal processing algorithms using number theo...