The Theoretical Foundation and Applications of Equivalent Transmission-Path Model for Assessing Wideband Digital Transmission Characteristics in Nakagami-Rice Fading Environments (Special Issue on Personal Communications)
スポンサーリンク
概要
- 論文の詳細を見る
For Nakagami-Rice fading environment which seems to become a principle propagation environment in the next generation wideband and high-capacity mobile systems such as personal communications, we have previously proposed an approximated evaluation scheme for wideband digital transmission characteristics such as errors due to intersymbol interference of multipath waves. We called the scheme `Equivalent Transmission-Path (ETP) Model.' In this paper, through a discussion about more general equivalent propagation channel expressions, we clarify a theoretical foundation of the ETP model and extend the model to have an ability of expression of instantaneous fading condition varying with time. Also the appropriateness of the instantaneous expression is examined by a computer simulation analysis. Based on this model, statistics of link quality and service availability in Nakagami-Rice fading environments are discussed.
- 社団法人電子情報通信学会の論文
- 1996-09-25
著者
-
Iwai Hisato
Kdd Research Amp Development Laboratories
-
KARASAWA Yoshio
ATR Optical and Radio Communications Research Laboratories
-
Karasawa Yoshio
Atr Optical And Radio Communications Research Labs.
-
Karasawa Yoshio
Atr Optical And Radio Comm. Research Labs.
関連論文
- Interference Cancellation Characteristics of a BSCMA Adaptive Array Antenna with a DBF Configuration
- Implementation of a Digital Signal Processor in a DBF Self-Beam-Steering Array Antenna
- An ASIC Implementation Scheme to Realize a Beam Space CMA Adaptive Array Antenna
- Frequency Characteristics of a Beamforming Network of an Optically Controlled Array Antenna and Its Radiation Pattern Measurements (Special Issue on Optomicrowave Techniques and Their Applications)
- Tapered Multi-Mode Fiber for Low Loss Optical Spot Size Demagnification
- Characteristics in Neodymium-Doped Fiber Amplifiers at 1.06 μm
- A Slot Coupled Microstrip Antenna with a Multi-Layer Thick Ground Plane
- The Theoretical Foundation and Applications of Equivalent Transmission-Path Model for Assessing Wideband Digital Transmission Characteristics in Nakagami-Rice Fading Environments (Special Issue on Personal Communications)
- Beam Forming Characteristics of a Waveguide-Type Optical Phased Array Antenna
- Analysis of Cycle Slip in Clock Recovery on Frequency-Selective Nakagami-Rice Fading Channels Based on the Equivalent Transmission-Path Model