Title :
High-rate concatenated space-time block code M-TCM designs
Author :
Siwamogsatham, Siwaruk ; Fitz, Michael P.
Author_Institution :
Nat. Electron. & Comput. Technol. Center, Phatumthai, Thailand
Abstract :
In this paper, a new technique to design improved high-rate space-time (ST) codes is proposed based on the concept of concatenated ST block code (STBC) and outer trellis-coded modulation (M-TCM) encoder constructions. Unlike the conventional rate-lossy STBC-MTCM schemes, the proposed designs produce higher rate ST codes by expanding the codebook of the inner orthogonal STBC. The classic set partitioning concept is adopted to realize the STBC-MTCM designs with large coding gains. The proposed expanded STBC-MTCM designs for the two-, three-, and four-transmitter cases are illustrated. Simulation results show the proposed STBC-MTCM designs significantly outperform the traditional ST-TCM schemes. Furthermore, decoding complexity of the proposed scheme is low because signal orthogonality is exploited to ease data decoding.
Keywords :
antenna arrays; block codes; channel coding; concatenated codes; decoding; fading channels; space-time codes; trellis coded modulation; wireless channels; STBC; classic set partitioning concept; decoding complexity; encoder construction; fading channel; high-rate concatenated code; large coding gain; multiple antenna; outer M-TCM design; signal orthogonality; space-time block code; trellis-coded modulation; wireless communication; Block codes; Concatenated codes; Decoding; Fading; Gallium nitride; Modular construction; Modulation coding; Receiving antennas; Transmitters; Wireless communication; Diversity; fading channels; multiple antennas; space–time (ST) codes; wireless communication;
Journal_Title :
Information Theory, IEEE Transactions on
DOI :
10.1109/TIT.2005.859276
