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A Hamming Code Based Single Bit Error Detection and Correction for 128 or 256 Bits

Vinita Malviya*, Soumya Gupta**, Hardik Thakkar***, Dharmendra Singh****

*-** UG Scholar, Department of Electronics and Telecommunication, SSIPMT, Raipur, India.

***-**** Assistant Professor, Department of Electronics and Telecommunication, SSIPMT, Raipur, India.

Periodicity:July - September'2017
DOI : https://doi.org/10.26634/jdp.5.3.13928

Abstract

An error in data communication is very common and it cannot be avoided. The error is of two types, such as single bit and burst error, which is depends upon noise present in the path via the data, is transferred. There are various method used for the detection of this error, and this is done on the basis of even or odd parity. In this paper, a hamming code technique is used to detect and correct the single bit error. An extra bit is sent to receive along with the original data known as a parity bit, this is also done on the basis of even or odd parity. This extra bit will enhance the security of the data being transferred.

Keywords

Single Bit Error, Burst Error, Hamming Code, Parity Bit, Even Parity, Odd Parity

How to Cite this Article?

Malviya, V., Gupta, S., Thakkar, H., and Singh, D. (2017). A Hamming Code Based Single Bit Error Detection and Correction for 128 or 256 Bits. i-manager's Journal on Digital Signal Processing, 5(3), 1-4. https://doi.org/10.26634/jdp.5.3.13928

References

[1]. Baloch, S., Arslani, T., & Stoica, A. (2005, March). Efficient error correcting codes for on-chip DRAM applications for space missions. In Aerospace Conference, 2005 IEEE (pp. 1-9). IEEE.

[2]. Gomes, J., & Mishra, B. K. (2010). Double Error Correcting Long Code. AIRCC-IJCNC, International Journal of Computer Networks and Communications, 2(5), 58-69.

[3]. Forouzan, B. A., & Mukhopadhyay, D. (2011). Cryptography and Network Security. McGraw-Hill Education.

[4]. Gupta, B. K. (2013). Novel Hamming code for error correction and detection of higher data bits using VHDL. International Journal of Scientific & Engineering Research, 4(4), 272-275.

[5]. Gupta, B. K., & Dua, R. L. (2012a). Communication by 31 Bit Hamming Code Transceiver with even parity and odd parity check method by using VHDL. International Journal of Computational Engineering Research, 2(2), 278-288.

[6]. Gupta, B. K., & Dua, R. L. (2012b). Various Methodologies used for 25 Bit Information Data String Communication through Hamming Code. International Journal of Applied Information Systems, 2(2), 57-65.

[7]. Gupta, B. K., & Dua, R. L. (2011). 30 bit hamming code for error detection and correction with even parity and odd parity check method by using VHDL. International Journal of Computer Applications, 35, 31-38.

[8]. Kumar, U. K., & Umashankar, B. S. (2007, February). Improved hamming code for error detection and correction. In Wireless Pervasive Computing, 2007. ISWPC'07. 2^nd International Symposium on IEEE.

[9]. Saleh, A. H. (2015). Design of Hamming Code for 64 Bit Single Error Detection and Correction using VHDL. Diyala Journal of Engineering Sciences, 8(3), 22-37.

[10]. Singh, J., & Singh, J. (2012, January). A comparative study of error detection and correction coding techniques. In Advanced Computing & Communication Technologies (ACCT), 2012 Second International Conference (pp. 187-189).

A Hamming Code Based Single Bit Error Detection and Correction for 128 or 256 Bits

Abstract

Keywords

How to Cite this Article?

References

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