Link Capacity and Signal Power of CDMA Systems According to Spreading Code and Bandwidth Allocations in Multipath Fading Environments
スポンサーリンク
概要
- 論文の詳細を見る
Reverse link performance analyses of singlecode(SC)and multi-code(MC)CDMA systems in multipath fading environments are presented. The degree of orthogonality loss among multiple spreading code channels is characterized by introducing the orthogonality factor. This factor depends on the multipath delay power profiles of the propagation channel and the number of paths resolved at a Rake receiver. The link capacity and the signal power of both CDMA systems are then analyzed according to varying system parameters, including spreading bandwidth, traffic load, the orthogonality factor, and the number of spreading codes assigned to a user. Analytical results show that the SC-CDMA system provides a larger link capacity and MC users require more power than SC users. The dominant parameters affecting the performance difference are the spreading bandwidth and multipath delay power profiles.
- 社団法人電子情報通信学会の論文
- 2001-12-01
著者
-
Sung Dan
The Department Of Electrical Engineering Kaist
-
Cho Ki
Lg Electronics Inc.
-
KANG Chang
the Department of Electrical Engineering, Korea Advanced Institute of Science and Technology(KAIST)
-
Kang Chang
The Department Of Electrical Engineering Korea Advanced Institute Of Science And Technology(kaist):e
関連論文
- Channel Holding Time Distribution in Cross-and Cigar-Shaped Urban Microcells
- A Traffic Measurement-Based Modeling of Superposed ATM Cell Streams
- Performance of Single-Bit Adaptive Step-Size Closed-Loop Power Control Scheme in DS-CDMA Systems
- The Required Signal Power for Multimedia Traffic in Multipath Faded CDMA Systems
- Performance Analysis of a Profile Management Scheme for Incall Registration/Deregistration in Wireline UPT Networks : Part II:Timer-Based Scheme
- Link Capacity and Signal Power of CDMA Systems According to Spreading Code and Bandwidth Allocations in Multipath Fading Environments
- An Enhanced Priority Reservation Algorithm for ATM Multicast Switches with a One-Shot Scheduling Scheme
- A General Expansion Architecture for Large-Scale Multicast ATM Switches