1. Interpolation-Based QR Decomposition in MIMO-OFDM Systems
- Author
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Cescato, Davide and Bölcskei, Helmut
- Subjects
Computer Science - Information Theory - Abstract
Detection algorithms for multiple-input multiple-output (MIMO) wireless systems based on orthogonal frequency-division multiplexing (OFDM) typically require the computation of a QR decomposition for each of the data-carrying OFDM tones. The resulting computational complexity will, in general, be significant, as the number of data-carrying tones ranges from 48 (as in the IEEE 802.11a/g standards) to 1728 (as in the IEEE 802.16e standard). Motivated by the fact that the channel matrices arising in MIMO-OFDM systems are highly oversampled polynomial matrices, we formulate interpolation-based QR decomposition algorithms. An in-depth complexity analysis, based on a metric relevant for very large scale integration (VLSI) implementations, shows that the proposed algorithms, for sufficiently high number of data-carrying tones and sufficiently small channel order, provably exhibit significantly smaller complexity than brute-force per-tone QR decomposition., Comment: The original submission to Appl. Comput. Harmon. Anal. in Aug. 2009 was withdrawn. The paper was split in two parts, which were submitted in Oct. 2009 to IEEE Trans. Inf. Theory and to IEEE Trans. Signal Proc., respectively
- Published
- 2009