Safety Driving Support Using CDMA Inter-Vehicle Communications
スポンサーリンク
概要
- 論文の詳細を見る
Although the near-far effect has been considered to be the major issue preventing CDMA from being used in ad-hoc networks, in this paper, we show that the near-far effect is not a severe issue in inter-vehicle networks for safety driving support, where packet transmissions are generally performed in the broadcast manner. Indeed, the near-far effect provides extremely reliable transmissions between near nodes, regardless of node density, which cannot be achieved by CSMA/CA. However, CDMA cannot be directly applied in realistic traffic accident scenarios, where highly reliable transmissions are required between far nodes as well. This paper proposes to apply packet forwarding and transmission scheduling methods that try to expand the area, where reliable transmissions are achievable. Simulation results show that the proposed scheme significantly excels a CSMA/CA-based scheme in terms of delivery ratio and delay under realistic traffic accident scenarios. Specifically, the proposed scheme achieves approximately 90% of delivery ratio and 4 milliseconds of end-to-end delay in a scenario, where the CSMA/CA scheme achieves 60% of delivery ratio and 80 milliseconds of delay.
著者
-
YOMO Hiroyuki
ATR Adaptive Communications Research Laboratories
-
MIURA Ryu
ATR Adaptive Communications Research Laboratories
-
OBANA Sadao
ATR Adaptive Communications Research Laboratories
-
SHIRAZI Mehdad
ATR Adaptive Communications Research Laboratories
-
Shagdar Oyunchimeg
Atr Adaptive Communications Res. Lab. Keihanna Sci. City Jpn
-
Obana Sadao
Atr Adaptive Communication Labs.
-
Shirazi Mehdad
Atr Adaptive Communications Res. Lab.
-
Ohyama Takashi
ATR Adaptive Communications Research Laboratories
関連論文
- An Opportunistic Forwarding Scheme Exploiting both Long Progress and Adaptive Rate in Wireless Networks
- Exploiting Potential Throughput Metric for Access Point Selection in Wireless LANs
- Delay-Based Priority Control over Multi-Hop Wireless Mesh Networks(Network)
- A Reservation-Based Enhancement of IEEE802.11 DCF Protocol(Network)
- Joint Channel and Network Decoding for XOR-Based Relay in Multi-Access Channel
- Mobility Prediction Progressive Routing (MP2R), a Cross-Layer Design for Inter-Vehicle Communication
- B-21-32 Position-based Beam Control in ITS System
- Avoiding Asymmetric Link and Link Break by Using RSSI Information
- B-5-127 Cognitive Communication System Architecture for Spectral Efficient Wireless Networks
- 招待論文 Large Scale Ad Hoc Wireless Networks
- 招待論文 Large Scale Ad Hoc Wireless Networks
- 招待論文 Large Scale Ad Hoc Wireless Networks
- Safety Driving Support Using CDMA Inter-Vehicle Communications
- Improving performance of wireless networks with coordinated transmit power control (無線通信システム)
- Improving performance of WLAN with joint AP selection and power control (無線通信システム)
- Invited talk: Public-private cooperative cognitive radio access networks: system components, technical target and issues, key functions and system integration (ソフトウェア無線)
- Test-Bed Based Research on Ad Hoc Networks in Japan(Advances in Ad Hoc Mobile Communications and Networking)
- Transmission Scheduling in CDMA-based Inter-vehicle Communication
- B-21-2 Mobility Prediction-based Position Distribution in Vehicular Transportation System
- Monitor for multi-link queue statistics in cognitive radio networks (モバイルマルチメディア通信)
- Application-aware traffic splitting over cognitive multi-access networks (ネットワークシステム)
- B-17-24 Bad-Link Detection in Cognitive Radio Networks
- B-21-4 Experiment Evaluation of Mobility Prediction Progressive Routing Protocol
- B-7-38 Cross Layer Delay Control for Wireless Networks
- Wireless interface monitoring and link status detection in cognitive radio networks (オーディオビジュアル複合情報処理)
- Wireless interface monitoring and link status detection in cognitive radio networks (モバイルマルチメディア通信)
- B-7-206 A Study on CDMA Media Access Control for Mobile Ad-Hoc Networks
- B-7-205 Cross Layer Design for Multi-Hop Wireless Networks
- Traffic Distribution Based on Airtime-Fairness for Multi-Radio Cognitive Networks
- Self-Organizing Location Estimation Method Using Received Signal Strength(Mobile Multimedia Communications)
- B-17-18 Multipath Routing and Spectral Efficiency in Cognitive Wireless Systems
- Interaction between Ad Hoc Forwarding and The 802.11 MAC in Ad Hoc Mobile Networks using Directional Antenna
- B-21-25 Directional MAC Protocol in Wireless Ad Hoc Networks with Location tracking(B-21. アドホックネットワーク, 通信2)
- An Opportunistic Forwarding Scheme Exploiting both Long Progress and Adaptive Rate in Wireless Networks
- Congestion control for wireless LAN access networks (情報ネットワーク)
- On latency and reliability of CDMA-based intervehicle communication (アドホックネットワーク)
- Congestion Control for Wireless LAN Access Networks
- Joint Channel and Network Decoding for XOR-Based Relay in Multi-Access Channel
- Bidirectional Packet Aggregation and Coding for Efficient VoIP Transmission in Wireless Multi-Hop Networks
- Network coding based relay scheme for wireless LAN (アドホックネットワーク)
- An efficient geocast scheme for distributing congestion information in inter-vehicle communications (アドホックネットワーク)
- Medium access control for distributed CDMA networks (アドホックネットワーク)
- M-044 A Method for Selfish Node Detection and Avoidance in Wireless Ad Hoc Networks
- Mobility Prediction Progressive Routing (MP2R), a Cross-Layer Design for Inter-Vehicle Communication
- Reliable Cut-Through Forwarding for Inter-Vehicle Networks
- B-7-158 FAIRNESS IN MULTI-HOP AD-HOC NETWORKS
- Packet Distribution for Communications Using Multiple IEEE802.11 Wireless Interfaces and Its Impact on TCP
- Adaptive Multimedia Flow Splitting over WiMAX and WiFi Links
- Enhanced Link-Status Detection for High Speed Link Aggregation in Cognitive Radio Networks
- Reliable Wireless Broadcast with Linear Network Coding for Multipoint-to-Multipoint Real-Time Communications
- B-20-61 Impact of Wireless Communications on Emergence of Swarm Intelligence
- New wakeup transceiver for on-demand wireless LAN
- Wake-up Signaling via WLAN Frames : How to Improve Reliability
- Detection of Traffic Congestion Based on Link-Level Metrics in IEEE 802.11 Networks