Space-Time Block Codes from Quasi-Orthogonal Designs with Maximal Rate or Minimal Decoding Complexity
スポンサーリンク
概要
- 論文の詳細を見る
This letter investigates the space-time block codes from quasi-orthogonal design as a tradeoff between high transmission rate and low decoding complexity. By studying the role orthogonality plays in space-time block codes, upper bound of transmission rate and lower bound of decoding complexity for quasi-orthogonal design are claimed. From this point of view, novel algorithms are developed to construct specific quasi-orthogonal designs achieving these bounds.
- (社)電子情報通信学会の論文
- 2010-02-01
著者
-
Kan Haibin
Shanghai Key Laboratory Of Intelligent Information Processing School Of Computer Science Fudan Unive
-
MA Huanfei
Shanghai Key Laboratory of Intelligent Information Processing, School of Computer Science, Fudan Uni
-
WU Zhihao
Shanghai Key Laboratory of Intelligent Information Processing, School of Computer Science, Fudan Uni
-
Wu Zhihao
Shanghai Key Laboratory Of Intelligent Information Processing School Of Computer Science Fudan Unive
-
Ma Huanfei
Shanghai Key Laboratory Of Intelligent Information Processing School Of Computer Science Fudan Unive
-
Kan Haibin
Shanghai Key Laboratory Of Intelligent Information Processing And Institute Of Theoretical Computer Science School Of Computer Science Fudan University
-
KAN Haibin
Shanghai Key Lab of Intelligent Information Processing, School of Computer Sciences, Fudan University
-
KAN Haibin
Shanghai Key Lab of Intelligent Information Processing, School of Computer Science, Fudan University
関連論文
- Constructing and Counting Boolean Functions on Even Variables with Maximum Algebraic Immunity
- Space-Time Block Codes from Quasi-Orthogonal Designs with Maximal Rate or Minimal Decoding Complexity
- An Efficient Interpolation Based Erasure-Only Decoder for High-Rate Reed-Solomon Codes
- Smaller Bound of Superconcentrator
- The Degree of Two Classes of 3rd Order Correlation Immune Symmetric Boolean Functions
- An Efficient Hybrid Cryptographic Scheme for Wireless Sensor Network with Network Coding
- Smaller Bound of Superconcentrator