Title :
A Fourier-Analytic Approach to Reed-Muller Decoding
Author :
Gopalan, Parikshit
Author_Institution :
MSR-Silicon Valley, Mountain View, CA, USA
Abstract :
We present a Fourier-analytic approach to list-decoding Reed-Muller codes over arbitrary finite fields. We use this to show that quadratic forms over any field are locally list-decodeable up to their minimum distance. The analogous statement for linear polynomials was proved in the celebrated works of Goldreich-Levin and Goldreich-Rubinfeld-Sudan. Previously, tight bounds for quadratic polynomials were known only for q = 2 or 3; the best bound known for other fields was the Johnson radius. Departing from previous work on Reed-Muller decoding which relies on some form of self- corrector, our work applies ideas from Fourier analysis of Boolean functions to low-degree polynomials over finite fields, in conjunction with results about the weight- distribution. We believe that the techniques used here could find other applications, we present some applications to testing and learning.
Keywords :
Boolean functions; Fourier analysis; Reed-Muller codes; decoding; error correction codes; polynomials; Boolean function; Fourier analysis; Goldreich Levin work; Goldreich Rubinfeld Sudan work; Johnson radius; Reed Muller decoding; linear polynomial; quadratic polynomial; self corrector form; weight distribution; Algorithm design and analysis; Computer science; Decoding; Error correction; Error correction codes; Noise; Polynomials; Fourier analysis; Polynomials; Reed-Muller codes; error-correcting codes;
Conference_Titel :
Foundations of Computer Science (FOCS), 2010 51st Annual IEEE Symposium on
Conference_Location :
Las Vegas, NV
Print_ISBN :
978-1-4244-8525-3
DOI :
10.1109/FOCS.2010.71
