A study on channel model for MTMR antenna systems
スポンサーリンク
概要
- 論文の詳細を見る
This paper proposes a space-time channel model applicable to multi tranmit multi receive (MTMR) antenna system that includes angle of departure (AOD) and angle of arrival (AOA) in addition to the amplitude, phase and delay time for each elementary (spatial) path. The proposed model is an extention of the geometrically based single bounce circular model (GBSBCM) and geometrically based single bounce elliptical model (GBSBEM) and it can generate various types of channel environments by adjusting model parameters. It also holds consistency with the conventional delay profile model on the point that its delay profile on the point that its delay profile measured in the receiver can be statistically matched to the conventional delay profile. Moreover, the proposed model can simulate for systems with different transmission rate. This paper also show some practical channel models generated by the proposed model.
- 社団法人電子情報通信学会の論文
- 2003-02-26
著者
-
Sampei S
Osaka Univ. Suita‐shi Jpn
-
Morinaga N
Hiroshima International Univ. Hiroshima‐ken Jpn
-
SAMPEI Seiichi
Graduate School of Engineering, Osaka University
-
Morinaga Norihiko
Graduate School Of Engineering Osaka University
-
Sampei Seiichi
Graduate School Of Engineering Osaka University
-
Hapsari Wuri
Graduate School of Engineering, Osaka University
-
Hapsari Wuri
Graduate School Of Engineering Osaka University
関連論文
- Enhancement of Data Throughput in the AMC-Employed DS-CDMA Systems through Suppression of Channel Frequency Selectivity by a MTMR Antenna System(Antennas and Propagation)
- A Novel Method of Estimating the Signal-to-Interference Ratio for One-Cell-Frequency-Reuse OF/TDMA Systems
- A Carrier Interferometry Based Channel Estimation Technique for MIMO-OFDM/TDMA Systems(Wireless Communication Technologies)
- An OFDM Based Adaptive Modulation Scheme Employing Variable Coding Rate(Multi-carrier Signal Processing Techniques for Next Generation Mobile Communications-Part 2)
- Peak Power Reduction Technique for Subcarrier Transmit Power Control Applied OFDM Systems(Wireless Communication Technology)
- Channel Monitor-Based Unequal Error Protection Scheme Using Dynamic OFDM Subcarrier Assignment Technique for Broadband Video Transmission System(Special Issue on Mobile Multimedia Communications)
- Symbol-by-Symbol Based Multilevel Transmit Power Control for OFDM Based Adaptive Modulation under High Mobility Terminal Conditions(Special Issue on Multiple Access and Signal Transmission Techniques for Future Mobile Communications)
- SB-9-4 A Study on Feedback Delay Compensation Technique in Eigen-Beam MIMO Systems(SB-9. Broadband wireless access techniques for the next generation wireless communications)
- A Novel Receiver Design for DS-CDMA Systems under Impulsive Radio Noise Environments
- A High Power Narrowband Interference Rejection Technique Using Multi-stage Canceller for DS-CDMA Systems
- A Narrowband Interference Rejection Technique for DS-CDMA System
- Frequency Domain Nulling Filter and Turbo Equalizer in Suppression of Interference for One-Cell Reused Single-Carrier TDMA Systems
- A study on channel model for MTMR antenna systems (移動通信ワークショップ--次世代ブロードバンド無線通信の実現に向けて)
- A study on channel model for MTMR antenna systems (移動通信ワークショップ--次世代ブロードバンド無線通信の実現に向けて)
- A study on channel model for MTMR antenna systems
- A study on channel model for MTMR antenna systems
- A study on channel model for MTMR antenna systems (移動通信ワークショップ--次世代ブロードバンド無線通信の実現に向けて)
- Reliable Wireless Broadcast with Linear Network Coding for Multipoint-to-Multipoint Real-Time Communications
- Modeling of Microwave Oven Interference Using Class-A Impulsive Noise and Optimum Reception
- Co-channel Interference Suppression Scheme Employing Nulling Filter and Turbo Equalizer for Single-Carrier TDMA Systems(Wireless Communication Technologies)
- A-5-39 A Study on Co-channel Interference Suppression using Frequency-domain Nulling Filter and a Turbo Equalizer with SC/MMSE for Single-carrier Transmission Systems
- Adaptive Bandwidth Control for Dynamic Spectrum Control Aided Spectrum Sharing in Private Wireless Networks
- A Spectrum-Overlapped Resource Management for Turbo Equalizer in Uplink Future Multiple Access Channels
- Adaptive Bandwidth Control for Dynamic Spectrum Control Aided Spectrum Sharing in Private Wireless Networks
- Novel DCF-Based Multi-User MAC Protocol for Centralized Radio Resource Management in OFDMA WLAN Systems