Improving Performance of SC-UWB Systems with the Optimum SRAKE Based RAKE-DFE Receiver
スポンサーリンク
概要
- 論文の詳細を見る
- 2009-08-01
著者
-
XIAO Zhenyu
Department of Electronic Engineering, Tsinghua University
-
SU Li
Department of Electronic Engineering, Tsinghua University
-
JIN Depeng
Department of Electronic Engineering, Tsinghua University
-
ZENG Lieguang
Department of Electronic Engineering, Tsinghua University
-
Jin Depeng
Department Of Electronic Engineering Tsinghua University
-
Xiao Zhenyu
Department Of Electronic Engineering Tsinghua University
-
Lin Shijun
Department Of Electronic Engineering Tsinghua University
-
Zeng Lieguang
Department Of Electronic Engineering Tsinghua University
関連論文
- Performance Comparison of RAKE Receivers in SC-UWB Systems and DS-UWB Systems
- Improving Performance of SC-UWB Systems with the Optimum SRAKE Based RAKE-DFE Receiver
- Reducing the Handover Delay in FMIPv6 Using Proactive Care-of Address Scheme
- Area Concentric Beacons Localization for Wireless Sensor Networks
- Performance Comparison of RAKE Receivers in SC-UWB Systems and DS-UWB Systems
- A Fast Bottom-Up Approach to Identify the Congested Network Links
- High Frequency Resolution DCO with Mismatched Capacitor Pairs
- Optimal Buffer Management Scheme to Maximize the Message Delivery Rate in Delay Tolerant Networks
- Study-Based Error Recovery Scheme for Networks-on-Chip
- Improving Performance of SC-UWB Systems with the Optimum SRAKE Based RAKE-DFE Receiver
- Self-Protected Spanning Tree Based Recovery Scheme to Protect against Single Failure
- Pre-Allocation Based Flow Control Scheme for Networks-On-Chip
- Autologous Peripheral Blood Stem Cell Transplantation for Severe Multiple Sclerosis
- Optimal Probabilistic Epidemic Forwarding for Energy Constrained Delay Tolerant Networks
- A Dual-Port Access Structure of 3D Mesh-Based NoC
- Optimum Quantization Scaling for Noisy Signals in UWB Scenarios
- Performance-Aware Hybrid Algorithm for Mapping IPs onto Mesh-Based Network on Chip
- Performance Evaluation of Routing Schemes for the Energy-Constrained DTN with Selfish Nodes