Power Adjustment Based Congestion Control in Vehicular Ad-hoc Networks

机译：车载Ad-hoc网络中基于功率调整的拥塞控制

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Vehicles exchange periodic beacons to keep track of neighbor's moving trends in order to achieve cooperative safety awareness. In this paper, beacon rate is fixed as 10Hz to ensure sufficient tracking accuracy. High rate means heavy channel load. If beacons are transmitted with high power, channel will become extremely congested. To alleviate channel congestion, we propose a power adjustment based congestion control method depending on channel condition evaluation and message priority. In our scheme, channel situations are evaluated by current channel load and historical transmission delay. The mechanism is evaluated in our simulation platform which comprises of traffic simulator VISSIM for realistic urban scenario and network simulator NS3 for IEEE 802.11pbased communication. Simulation results demonstrate that our scheme has improved both the system reliability and efficiency.

机译：车辆定期交换信标以跟踪邻居的移动趋势，从而获得合作的安全意识。本文将信标速率固定为10Hz，以确保足够的跟踪精度。高速率意味着沉重的信道负载。如果以高功率发送信标，则信道将变得非常拥塞。为了减轻信道拥塞，我们提出了一种基于信道状况评估和消息优先级的基于功率调整的拥塞控制方法。在我们的方案中，通过当前信道负载和历史传输延迟来评估信道状况。在我们的仿真平台中对该机制进行了评估，该仿真平台包括用于现实城市场景的交通仿真器VISSIM和用于基于IEEE 802.11p的通信的网络仿真器NS3。仿真结果表明，该方案提高了系统的可靠性和效率。

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来源
《2014 4th International Conference on Artificial Intelligence with Applications in Engineering and Technology》|2014年|280-285|共6页
会议地点 Kota kinabalu(MY)
作者
Lei Guofeng; Liu Fuqiang; Wang Ping; Wang Xinhong; Wang Ning;
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正文语种 eng
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Ad hoc networks; Delays; Interference; Power control; Protocols; Safety; Vehicles; VANETs; power adjustment; congestion control; channel load; transmission delay; message priority;

机译：特设网络；延误；干扰;功率控制;协议；安全;汽车;广域网功率调整；拥塞控制频道负载；传输延迟；消息优先级；;

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1. 车载ad-hoc网络最优路由的定量与定性相关性分析 [J] . MUKUND B. Wagh, GOMATHI N. 中南大学学报（英文版） . 2018,第007期
2. A priority-based CCA threshold adjusting method for EWM dissemination in vehicular ad-hoc networks [J] . Han Qingwen, Zeng Lingqiu, He Xueying, Wireless Networks . 2015,第5期

机译：基于优先级的CCA阈值调整方法在车辆自组织网络中的EWM传播
3. Fair Congestion Control in Vehicular Networks With Beaconing Rate Adaptation at Multiple Transmit Powers [J] . Esteban Egea-Lopez, Pablo Pavon-Mariño IEEE Transactions on Vehicular Technology . 2016,第6期

机译：具有多个发送功率的信标速率自适应的车载网络中的公平拥塞控制
4. Data Transmission Using IoT in Vehicular Ad-Hoc Networks in Smart City Congestion [J] . Saleem Muhammad Asim, Zhou Shijie, Sharif Abida Mobile networks & applications . 2019,第1期

机译：智慧城市拥堵中车载Ad-Hoc网络中使用IoT进行数据传输
5. Power Adjustment Based Congestion Control in Vehicular Ad-hoc Networks [C] . Lei Guofeng, Liu Fuqiang, Wang Ping, International Conference on Artificial Intelligence with Applications in Engineering and Technology . 2014

机译：基于功率调整的车载ad-hoc网络拥塞控制
6. Congestion management in vehicular ad-hoc networks. [D] . Kadri Mohandas, Brijesh. 2009

机译：车辆自组织网络中的拥塞管理。
7. A Contention-Based Hop-By-Hop Bidirectional Congestion Control Algorithm for Ad-Hoc Networks [O] . Jiashuai Wang, Xiaoping Yang, Ying Liu, 2019

机译：Ad-Hoc网络中基于竞争的逐跳双向拥塞控制算法
8. Congestion Reduction Using Ad-Hoc Message Dissemination in Vehicular Networks [O] . Thomas Hewer, Maziar Nekovee 2008

机译：在车载网络中使用ad-Hoc消息传播减少拥塞

Power Adjustment Based Congestion Control in Vehicular Ad-hoc Networks

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