Paper Info
Title
Full rate space-time turbo codes
Abstract
This paper proposes a class of full space diversity full rate space-time turbo codes. Both parallel concatenated and serially concatenated codes are designed. A rank theory proposed by the authors earlier is employed to check the full space diversity of the codes. The simulations show that the space-time turbo codes can take full advantage of space diversity and time diversity if they are available in the channels. We also study the robustness of performance of both turbo codes and trellis codes in space-time correlated fading channels
Year
DOI
Venue
2001
10.1109/49.924880
IEEE Journal on Selected Areas in Communications
Keywords
Field
DocType
turbo codes.,space-time codes,serially concatenated code,full advantage,rank theory,diversity methods,time diversity,full rate space-time turbo,qam modulation,multiple antennas,index terms—codes on rings,full space diversity,fading channel,turbo code,space-time turbo code,space-time correlated fading channel,space diversity,16 qam,qpsk,wireless communication,channel coding,decoding,space time,indexing terms,modulation space,performance,convolutional codes,quadrature amplitude modulation,fading,robustness,concatenated codes,turbo codes,bpsk,awgn
Concatenated error correction code,BCJR algorithm,Telecommunications,Computer science,Turbo code,Block code,Serial concatenated convolutional codes,Algorithm,Real-time computing,Turbo equalizer,Linear code,Tornado code
Journal
Volume
Issue
ISSN
19
5
0733-8716
Citations 
PageRank 
References 
46
3.15
16
Authors
3
Name
Order
Citations
PageRank
Youjian Liu160549.82
M. P. Fitz2882251.35
O. Y. Takeshita338032.94