Comparison of hamming, BCH, and reed Solomon codes for error correction and detecting techniques
|International Journal of Engineering Trends and Technology (IJETT)||
|© 2019 by IJETT Journal|
|Year of Publication : 2019|
|Authors : Mr. Dawit abrha , Mr.Musie frdiesa , Mr. Mamaru wutabachew
|DOI : 10.14445/22315381/IJETT-V67I6P201|
MLA Style: Mr. Dawit abrha , Mr. Musie frdiesa , Mr. Mamaru wutabachew "Comparison of hamming, BCH, and reed Solomon codes for error correction and detecting techniques" International Journal of Engineering Trends and Technology 67.6 (2019): 1-4.
APA Style:Mr. Dawit abrha , Mr. Musie frdiesa , Mr. Mamaru wutabachew (2019). Comparison of hamming, BCH, and reed Solomon codes for error correction and detecting techniques International Journal of Engineering Trends and Technology, 67(6), 1-4.
In digital communication, errors are introduced during the transmission of data from the transmitter to receiver due to noise or environmental interference. Hence, we have to use some kind of error control coding for error detection and error correction. In this paper we are applying error control mechanisms, like hamming code, BCH codes and reed Solomon codes to detect and correct the errors. Thus we are used Hamming code, Reed-Solomon and BCH code control techniques to correct the errors. Lastly we are comparing the capability of error correcting those codes .the comparison is based on the strength of error correcting technique
 D. Deshmukh and A. More, “International Journal of Innovative Research in Computer and Communication Engineering Applying Big Data in Higher Education,” no. d, pp. 4657–4663, 2017.
 S. Gandhi and J. Khurana, “„ Implementing (7, 4) Hamming Code Encoding And Decoding System Using CPLD ,?” vol. 2, no. 7, pp. 714–719, 2013.
 D. K, “Design and Implementation of Encoder for (15, k) Binary BCH Code Using VHDL and eliminating the fan-out,” IOSR J. Electron. Commun. Eng., vol. 7, no. 6, pp. 01–06, 2013.
 K. Kaur, H. Dogra, and G. S. Gaba, “A Theoretical Review of Channel Coding Techniques Over Different Channel Models,” Int. J. Control Autom., vol. 10, no. 9, pp. 37–42, 2017.
 G. Kavyashri, K. Shruthi, M. R. Nagasanthosh, M. S. Sowjanya, and A. P. Kavya, “Implementation of Reed Solomon Codes on.”
 B. Özbay and S. Çekli, “Power-efficient Viterbi decoder architecture and field programmeble gate arrays FPGA implementation,” Istanbul Univ. - J. Electr. Electron. Eng., vol. 18, no. 1, pp. 52–59, 2018.
 M. Prashanthi and P. Samundiswary, “An Area Efficient (31, 16) BCH Decoder for Three Errors,” Int. J. Eng. Trends Technol., vol. 10, no. 13, pp. 616–620, 2014
 O. Rafique and G. S.L, “Hardware Efficient WiMAX Deinterleaver Capable of Address Generation for Random Interleaving Depths,” Int. J. Eng. Trends Technol., vol. 10, no. 4, pp. 187–190, 2014.
 P. G. Scholar, “Improved Compression Scheme for FPGA with Hamming Code Error Correction Technique.”
 J. Singh and D. S. Bahel, “Comparative Study of Data Transmission Techniques of Different Block Codes over AWGN Channel using Simulink,” Int. J. Eng. Trends Technol., vol. 9, no. 12, pp. 609–615, 2014.
hamming code, Reed-Solomon code, BCH code, error detecting, error correcting.