A Design of Single Symbol Decodable QO-STBC with Full Diversity (通信方式)
スポンサーリンク
概要
- 論文の詳細を見る
- 電子情報通信学会の論文
- 2012-03-08
著者
-
AHN Chang-Jun
Department of Electrical and Electronic Engineering, Chiba University
-
OMORI Tatsuya
Department of Electrical and Electronic Engineering, Chiba University
関連論文
- High-Speed Laser Probing System for Surface Acoustic Wave Devices Based on Knife-Edge Method
- Ultra-Wideband Surface Acoustic Wave Devices Using Cu-Grating/Rotated-YX-LiNbO_3-Substrate Structure
- Analysis of Excitation and Propagation Characteristics of Leaky Modes in Surface Acoustic Wave Waveguides
- Preparation of piezoelectric PZT micro-discs by sol-gel method
- Polynomial Approximation of SAW Reflection Characteristics for Fast Device Simulation Tools
- Code Orthogonalizing Filter Based Adaptive Array Antenna Using Common Correlation Matrix of Time Domain Signals for Multicarrier DS/CDMA Systems
- High-Speed Laser Probing System for Surface Acoustic Wave Devices Based on Knife-Edge Method
- A Design of Single Symbol Decodable QO-STBC with Full Diversity (通信方式)
- Fabrication of a Slotted SiO2 Film/Embedded Grating Electrodes/128° YX-LiNbO3 Structure
- A Design of Single Symbol Decodable QO-STBC with Full Diversity
- A Design of Single Symbol Decodable QO-STBC with Full Diversity
- A Design of Single Symbol Decodable QO-STBC with Full Diversity
- Effects of Dielectric Overlay upon Surface Acoustic Wave Propagation under Metallic Grating Structure
- Effects of RF Filters on Performance of Power Amplifiers
- Improvement of Detection System for a Fast-Scanning and Phase-Sensitive Laser Probe for Surface Acoustic Wave Devices in 2 GHz Range
- Single-Phase Unidirectional Surface Acoustic Wave Transducer Using Cu Electrode
- Low-Loss and Constant-Group-Delay Surface Acoustic Wave Filters Employing Cu-Based Resonant Single-Phase Unidirectional Transducers
- Single Symbol Decodable QO-STBC with Full Diversity
- A Design of Single Symbol Decodable QO-STBC with Full Diversity
- A Design of Single Symbol Decodable QO-STBC with Full Diversity