同时具有车辆交通仿真与车辆通讯仿真两种功能的仿真器
概观
车辆网络模块是思锐网络仿真器的选择性附加模块。它提供了车辆交通仿真与车辆通讯仿真这两个功能,其中后者又包含了车对车 (V2V) 与车对基础设施网络 (V2I) 两种通讯。交通仿真功能与通讯仿真功能两者可以互相沟通并互相影响,在此基础上,一些创新的智能型运输系统应用就可以在思锐网络仿真器平台上来进行开发与效能评估。
主要特色与好处
车辆交通模拟
为了仿真车辆交通,思锐仿真器平台首先要支持道路设置的功能,让车辆能够在道路上行驶。一个路网可以用手动方式来布署,或是导入电子地图档案来进行路网建构。接下来,人类驾驶行为的模型要被使用在车辆移动的控制上,例如跟车、切换车道、超车与遵守红绿灯等行为。拥有上述两种能力,思锐仿真器平台就能够仿真真实的车辆交通状况。
车对车 & 车对基础设施网络的网络链接与通讯
思锐仿真器平台支持 IEEE 802.11p、IEEE 1609.3 和 IEEE 1609.4 通讯协议来仿真车对车 & 车对基础设施网络的网络链接与通讯。这些通讯协议是被用来支持车辆无线存取环境的,此环境的特性包含高速的车辆移动、较低的网络传输延迟与较高的网络传输质量。当车辆通讯仿真与车辆交通仿真结合之后,思锐仿真器平台就可以用来发展和评估新创的智能型运输系统之应用。
车辆网络的主要功能
无线网络协议
- IEEE 802.11p – Wireless Access in Vehicular Environments (WAVE)
- 11 MAC with EDCA
- 11 PHY with 1609.4 Extension
- IEEE 1609.3 - WAVE Networking Services
- Provider Service & User Service
- WSM Service
- IEEE 1609.4 - WAVE Multi-channel Operation
- Control Channel (CCH) & Service Channel (SCH) Alternating Access Mechanism
- Tunable CCH Interval & SCH Interval
- Extended CCH/SCH Access Mechanism
车辆驾驶模型
- Road Network
- Manual Drawing or Roadmap Importation
- Multi-lane Road
- Crossroad with Traffic Light
- Driving Behavior
- Car Profile to Configure Max Speed, Max Acceleration and Max Deceleration
- Car Following, Lane Changing & Overtaking
- Traffic Light Signal Obedience
产品型录
相关出版著作
C. E. Chang, K. F. Ssu and Y. Y. Lin, "Trajectory-Based Data Forwarding with Future Neighbor Prediction in Autonomous Driving Vehicular Environment," Proceedings of the IEEE International Workshop on Performance and Management of Wireless and Mobile Networks, Oct 2015
M. Y. Yuh, K. F. Ssu and Y. Y. Lin, "A Local Broadcasting Mechanism for Long-Term Messages in Vehicular Ad-Hoc Networks," Proceedings of the Workshop on Wireless, Ad Hoc and Sensor Networks, Aug 2015
Pei-Jin He, Kuo-Feng Ssu and Yu-Yuan Lin, "Sharing trajectories of autonomous driving vehicles to achieve time-efficient path navigation," IEEE Vehicular Networking Conference, Dec 2013
Luis Urquiza-Aguiar, Carolina Tripp-Barba, José Estrada-Jiménez and Mónica Aguilar Igartua, "On the impact of building attenuation models in vanet simulations of urban scenarios," Electronics 4 (1), 37-58, 2015
Luis Urquiza-Aguiar, Carolina Tripp-Barba and Angel Romero, "Reducing Duplicate Packets in Unicast VANET Communications,"Proceedings of the 12th ACM Symposium on Performance Evaluation of Wireless Ad Hoc, Sensor, & Ubiquitous Networks, 1-8, 2015
Luis Urquiza-Aguiar, Daniel Almeida, Carolina Tripp-Barba and Mónica Aguilar Igartua, "Heuristic Methods in Geographical Routing Protocols for VANETs," Proceedings of the 12th ACM Symposium on Performance Evaluation of Wireless Ad Hoc, Sensor, & Ubiquitous Networks, 41-48, 2015
Luis Urquiza-Aguiar, Carolina Tripp-Barba, José Estrada-Jiménez and Mónica Aguilar Igartua "Empirical Analysis of the Minkowski Distance Order in Geographical Routing Protocols for VANETs," Wired/Wireless Internet Communications, 327-340, 2015
Luis Urquiza-Aguiar, Andrés Vázquez-Rodas, Carolina Tripp-Barba, Ahmad Mohamad Mezher, Mónica Aguilar Igartua and Luis J de la Cruz Llopis, "Efficient deployment of gateways in multi-hop ad-hoc wireless networks," Proceedings of the 11th ACM symposium on Performance evaluation of wireless ad hoc, sensor, & ubiquitous networks, 93-110, 2014
Carolina Tripp-Barba, Luis Urquiza-Aguiar, José Estrada, José Alfonso Aguilar-Calderón, Aníbal Zaldívar-Colado and Monica Aguilar Igartua, "Impact of packet error modeling in VANET simulations," Adaptive Science & Technology (ICAST), 2014
Luis Urquiza-Aguiar, Andrés Vázquez-Rodas, Carolina Tripp-Barba, Monica Aguilar Igartua, Luis J de la Cruz Llopis and Emilio Sanvicente Gargallo, "MAX-MIN based buffer allocation for VANETs," Wireless Vehicular Communications (WiVeC), 2014
WANG Jiang-feng, XIONG Ruo-xi, WANG Min and YAN Xue-dong, "Effects of real-time traffic guidance information on vehicle travelling time in VANETs," Journal of Chang’an University (Natural Science Edition), (Volume: S1), 2015
Chung-Ming Huang, Chia-Ching Yang and Yu-Cheng Lin, "An Adaptive Video Streaming System Over a Cooperative Fleet of Vehicles Using the Mobile Bandwidth Aggregation Approach," IEEE Systems Journal (Volume:PP Issue: 99 ), 2014
Chung-Ming Huang, Chia-Ching Yang and Yu-Cheng Lin, "An adaptive video streaming scheme for a cooperative fleet of vehicles," 9th International Wireless Communications and Mobile Computing Conference (IWCMC), July 2013
Shie-Yuan Wang, Hung-Wei Chiu, Jie Zheng and Xiao Chen, "A cooperative approach to fully utilizing the aggregate bandwidth of all service channels in IEEE 802.11p/1609 networks," IEEE Symposium on Computers and Communications (ISCC), July 2013
Hao-Min Lina, Hsin-Mu Tsai and Mate Bobanb, "Scooter-to-X communications: Antenna placement, human body shadowing, and channel modeling," Ad Hoc Networks Volume 37, Part 1, Pages 87–100 Special Issue on Advances in Vehicular Networks, February 2016
Hamssa Hasrouny, Carole Bassil, Abed Ellatif Samhat and Anis Laouiti, "Group-based authentication in V2V communications," Digital Information and Communication Technology and its Applications (DICTAP), Apr 2015
Ms. Trupti P.Gangurde, "Cooperative Video Streaming Protocol Over the Hybrid Vehicularnetworks-A Review," International Journal of Innovation Research in Science and Engineering (Vol: 2, Issue: 3), March 2016