ISSN (Print) : 2320 3765
ISSN (Online): 2278 8875
International Journal of Advanced Research in Electrical,
Electronics and Instrumentation Engineering
(An ISO 3297: 2007 Certified Organization)
Vol. 3, Issue 2, February 2014
Design and analysis of variou
PEAK TO AVERAGE POWER RATIO REDUCTION IN ORTHOGONAL FREQUENCY DIVISION MULTIPLEXING SYSTEMS THROUGH GOLAY CODE
A project report submitted in partial fulfillment of the Requirements for the award of degree in BACHELOR OF TECHNOLOGY IN ELECTRONICS AND COMMU
Most books have an ISBN number. For example, the ISBN number of Recreations in the Theory of Numbers is 0486210960. Let's multiply these digits by the numbers ten to one. 10*0+9*4+8*8+7*6+6*2+5*1+4*0+3*9+2*6+1*0 = 198 = 18*11. The sum is divisible by 11.
In mathematics and electronics engineering, a binary Golay code is a type of errorcorrecting code used in digital communications. The binary Golay code, along with the ternary Golay code, has a particularly deep and interesting connection to the theory of
Golay Codes
Knowing only about the (7,4) Hamming code, Marcel J.E. Golay generalised Hamming's idea to perfect single-error correcting codes based on any prime number. Having done that, Golay began searching for perfect multi-error correcting codes. One o
Extended (24, 12) Binary Golay Code: Encoding and Decoding Procedures
Czeslaw Koscielny 2006 Academy of Management in Legnica, Legnica, Poland, Faculty of Computer Science, Wroclaw University of Applied Informatics, Wroclaw, Poland e mail: [email protected]
Reduction of Peak to average power ratio in Orthogonal frequency multiplexing systems through Golay code
Under the esteemed guidance of Sri M.V.S.Sairam
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BY : D. Vijay Varma 06131A0417 B. Kalpana 06131A0413 G.Ramaprasad