Computer Science ›› 2018, Vol. 45 ›› Issue (8): 80-83.doi: 10.11896/j.issn.1002-137X.2018.08.014
• Network & Communication • Previous Articles Next Articles
ZHANG Xuan1,2, JIANG Chao1, LI Xiao-qiang2, YAN Sha2
CLC Number:
[1]JOHNSON S J.Introducing low-density parity-checkcodes.http://sigpromu.org/sarah/SJohnsonLDPCintro.pdf. [2]LIVA G,PAOLINI E,COLA T D,et al.Codes on high-order fields for the CCSDS next generation uplink in Proc[C]∥Proceedings of IEEE Conference on Signal Processing for Space Communications Workshop (SPSC).New York:IEEE Press,2012:44-48. [3]DING Z,IVAN B.FPGA-based rate-compatible LDPC codes for the next generation of optical transmission systems[J].IEEE Photonics Journal,2016,8(5):1-8. [4]ZHANG M X,LIC X,KIM S.Efficient utilization of ratelessLDPC codes forsatellite broadcasting services[C]∥Proceedings of IEEE Conference on Wireless Communications & Signal Processing (WCSP).New York:IEEE Press,2016:1-5. [5]FABIÁN A,JAVIER V,VICEN Ç A.Reduced-complexity min- sum algorithm for decoding LDPC codes with low error-floor[J].IEEE Transactions on Circuits and Systems I:Regular Papers,2014,61(7):2150-2158. [6]KOU Y,LIN S,FOSSORIER M P C.Low-density parity-check codes based on finite geometries:a rediscovery and new results[J].IEEE Transactions on Information Theory,2001,47(7):2711-2736. [7]ZHANG J,FOSSORIER M.A modified weighted bit-flippingdecoding of low-density Parity-check codes[J].IEEE Communications Letters,2004,8(3):165-167. [8]JIANG M,ZHAO C,SHI Z,et al.An improvement on the modified weighted bit flipping decoding algorithm for LDPC codes[J].IEEE Communications Letters,2005,9(9):814-816. [9]GUO F,HANZO L.Reliability ratio based weighted bit-flipping decoding for LDPC codes[C]∥Proceedings of IEEE Conference on Vehicular Technology Conference.New York:IEEE Press,2005:709-713. [10]ZHANG G Y,ZHOU L,SU W W,et al.Average magnitude based weighted bit-flipping decoding algorithm for LDPC codes[J].Journal of Electronics & Information Technology,2013,35(11):2572-2578.(in Chinese)张高远,周亮,苏伟伟,等.基于平均幅度的LDPC码加权比特翻转译码算法[J].电子与信息学报,2013,35(11):2572-2578. [11]ZHANG G Y,ZHOU L,WEN H.Sum of the magnitude based weighted bit-flipping decoding algorithms for LDPC codes[J].Systems Engineering and Electronics,2014,36(4):752-757.(in Chinese)张高远,周亮,文红.基于幅度和的LDPC码加权比特翻转译码算法[J].系统工程与电子技术,2014,36(4):752-757. [12]WADAYAMA T,NAKAMURA K,YAGITA M,et al.Gra-dient descent bit flipping algorithms for decoding LDPC codes[J].IEEE Transactions on Communications,2010,58(6):1610-1614. [13]KHOA L,FAKHREDDINE G,DAVID D,et al.Efficient hardware implementation of probabilistic gradient descentbit-flipping[J].IEEE Transactions on Circuits and Systems I:Regular Papers,2017,64(4):906-917. [14]LI H,DING H,ZHENG L H.An escaping scheme for gradient descentbit-flippingdecoding of LDPC codes[C]∥Proceedings of IEEE Conference on Image and Signal Processing,BioMedical Engineering and Informatics (CISP-BMEI).New York:IEEE Press,2016:2026-2030. [15]DAVID J C.Encyclopedia of sparse graph codes[EB/OL].http://www.inference.phy.cam.ac.uk/mackay/codes. |
[1] | ZHANG Xuan, LI Xiao-qiang, YAN Sha. Reliability-based Scheduling for Bit-flipping Decoding Algorithm of LDPC Codes [J]. Computer Science, 2019, 46(6A): 329-331. |
[2] | LI Mao, ZHOU Zhi-gang, WANG Tao. Multiuser Detection Scheme for SCMA Systems Based on Stability of Belief Propagation [J]. Computer Science, 2019, 46(1): 138-142. |
[3] | TIAN Xiao-yan, WEI Na, FAN Ze-ming and ZHANG Suo-liang. Study and Design of Interleaver for Repeat Accumulate Codes [J]. Computer Science, 2018, 45(5): 79-82. |
[4] | GAO Jing-Bo,ZHOU Man-Li - (Department of Electronics & Information Engineering ,Huazhong University of Science and Technology, Wuhan 430074). [J]. Computer Science, 2007, 34(5): 41-44. |
[5] | . [J]. Computer Science, 2006, 33(7): 16-19. |
|