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ICETTR-2013
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Paper Title : Design of Structured Regular LDPC Codes without Short Cycles using Gray Code Representations
Author Name : Vibha Kulkarni, K. Jaya Sankar
Abstract : Low Density Parity Check (LDPC) codes are specified by the parity check matrix H. Smaller girths in the Tanner graphs of LDPC codes prevent the sum-product algorithm from converging, i.e., short cycles in H-matrix degrade the performance of LDPC decoder. In this paper, we present an algorithm for constructing LDPC codes without short cycles. The H-matrix must be sufficiently sparse to increase the girth of a code. In this work, we present a simple method to increase the sparsity of matrix and provide lemmas to avoid short cycles of lengths 4 and 6. We design sub-matrices for column-weight two and column-weight three codes. This design makes use of a simple shifting function given by the proposed scheme. These are then combined into a final H-matrix using Gray code representations. The proposed method provides structured, regular codes with flexibility in code rates and code lengths. The regularity of these codes gives the advantages like simplicity of hardware implementation and fast encoding.
Keywords : LDPC codes, Tanner Graph, Girth, Gray codes.
Cite this article : Vibha Kulkarni, K. Jaya Sankar " Design of Structured Regular LDPC Codes without Short Cycles using Gray Code Representations " ,ICETTR-2013 ,Page No : 121-126.