Title :
Rank-2-Optimal Adaptive Design of Binary Spreading Codes
Author :
Karystinos, George N. ; Pados, Dimitris A.
Author_Institution :
Tech.Univ.of Crete, Chania
Abstract :
Over the real/complex field, the spreading code that maximizes the signal-to-interference-plus-noise ratio (SINR) at the output of the maximum-SINR linear filter is the minimum-eigenvalue eigenvector of the interference autocovariance matrix. In the context of binary spreading codes, the maximization problem is NP-hard with complexity exponential in the code length. A new method for the optimization of binary spreading codes under a rank-2 approximation of the inverse interference autocovariance matrix is presented where the rank-2-optimal binary code is obtained in lower than quadratic complexity. Significant SINR performance improvement is demonstrated over the common binary hard-limited eigenvector design which is shown to be equivalent to the rank-1-optimal solution.
Keywords :
binary codes; code division multiple access; computational complexity; covariance matrices; eigenvalues and eigenfunctions; filtering theory; NP-hard; binary hard-limited eigenvector design; binary spreading code; interference autocovariance matrix; maximum-SINR linear filter; minimum-eigenvalue eigenvector; rank-2-optimal adaptive design; signal-to-interference-plus-noise ratio; Algorithm design and analysis; Binary codes; Code division multiplexing; Distributed algorithms; Interference; Multiaccess communication; Nonlinear filters; Optimization methods; Signal design; Signal to noise ratio; Binary sequences; code-division multiple-access (CDMA); code-division multiplexing; signal waveform design; signal-to-interference-plus-noise ratio (SINR); signature sets; spread-spectrum communications;
Journal_Title :
Information Theory, IEEE Transactions on
DOI :
10.1109/TIT.2007.903130
