基于标识的C-V2X车路协同碰撞预警测试方案研究
Research on Identification-Based C-V2X Vehicle-Road Cooperative Collision Warning Test Scheme
DOI: 10.12677/CSA.2022.1212301, PDF,    科研立项经费支持
作者: 孙 银, 宋 涛, 李琦琦, 吴 鹏:中国信息通信研究院工业互联网与物联网研究所,北京
关键词: 车联网车路协同碰撞预警工业互联网标识Internet of Vehicles Vehicle-Road Collaboration Collision Warning Industrial Internet Identification
摘要: 随着C-V2X蜂窝车联网通信技术的商业化应用,C-V2X车路协同碰撞预警已成为智能网联汽车产业化转型升级的重点研究板块。基于C-V2X通信技术的车路协同测试方案研究仍存在测试方法落后、数据安全堪忧、信息沟通不畅等一系列问题,C-V2X车路协同测试的数据安全共享在行业内一直面临巨大的挑战。工业互联网标识解析体系是工业互联网互联互通的神经中枢,是数据跨域共享的关键基础设施,标识在车路协同测试中的应用将更好地解决测试数据的安全共享问题。因此,本文提出了基于标识的车联网C-V2X车路协同碰撞预警测试方案,该方案在现有车路协同碰撞预警测试方案下进行了优化,进一步更新和完善了车路协同的检验检测标准,为实现车路协同场景下C-V2X碰撞预警功能测试的智能化提供了新的解决思路。
Abstract: With the commercial application of C-V2X cellular Internet of vehicles communication technology, C-V2X vehicle-road cooperative collision warning has become a key research area of the industrialization transformation and upgrading of intelligent connected vehicles. There are still a series of problems in the research of C-V2X communication technology based vehicle road collaborative test scheme, such as backward test methods, worrying data security, and poor information communication. The secure data sharing of C-V2X vehicle road collaborative test has been facing huge challenges in the industry. Industrial Internet identification resolution system is the nerve center of industrial Internet interconnection and the key infrastructure for cross-domain data sharing. The application of identification in vehical-road collaborative testing will better solve the problem of safe sharing of test data. Therefore, this paper proposes a token-based C-V2X collaborative collision warning test scheme for IoV, which is optimized under the existing collaborative collision warning test scheme, and further updates and improves the inspection and detection standard of collaborative collision warning, which provides a new solution for realizing the intelligent C-V2X collision warning function test in collaborative vehicle-road scenario.
文章引用:孙银, 宋涛, 李琦琦, 吴鹏. 基于标识的C-V2X车路协同碰撞预警测试方案研究[J]. 计算机科学与应用, 2022, 12(12): 2971-2982. https://doi.org/10.12677/CSA.2022.1212301

参考文献

[1] 范子健. 车路协同系统测试案例生成方法及其仿真实现[D]: [硕士学位论文]. 北京: 北京交通大学, 2013.
[2] 杜晓琳. 车路协同系统中通信管理系统设计及其功能仿真[D]: [硕士学位论文]. 北京: 北京交通大学, 2013.
[3] 王健. 面向车路协同的路侧节点部署与异构网络切换方法[D]: [硕士学位论文]. 西安: 长安大学, 2015.
[4] 葛满强. 车路协同环境下多模式通信平台设计与典型场景应用[D]: [硕士学位论文]. 北京: 北京交通大学, 2015.
[5] 张东亮, 李晓欢, 叶进, 詹益旺. 基于DSRC的车载自组网终端设计及性能测试[J]. 移动通信, 2015, 39(Z1): 117-121.
[6] 杨良义, 陈涛, 谢飞. 车路协同系统功能实现的场景测试技术研究[J]. 重庆理工大学学报(自然科学), 2018, 32(5): 43-47.
[7] 尉江华. 车联网环境下通信单元需求建模与设计实现[D]: [硕士学位论文]. 北京: 北京交通大学, 2018.
[8] 王润民, 邓晓峰, 徐志刚, 赵祥模. 车联网仿真测试评价技术研究综述[J]. 计算机应用研究, 2019, 36(7): 1921-1926.
[9] Sato, Y. and Makanae, K. (2006) Development and Evaluation of In-vehicle Signing System Utilizing RFID tags as Digital Traffic Signs. International Journal of ITS Research, 4, 53-58.
[10] Pérez, J., Seco, F., Milanés, V., Jiménez, A., Díaz, J.C. and De Pedro, T. (2010) An RFID-Based Intelligent Vehicle Speed Controller Using Active Traffic Signals. Sensors, 10, 5872-5887. [Google Scholar] [CrossRef] [PubMed]
[11] Małecki, K. and Kopaczyk, K. (2013) RFID-Based Traffic Signs Recog-nition System. In: Mikulski, J., Eds., Activities of Transport Telematics. Communications in Computer and Information Science, Vol. 395, Springer, Berlin, 115-122. [Google Scholar] [CrossRef
[12] Bhawiyuga, A., Sabriansyah, R.A., Yahya, W. and Putra, R.E. (2016) A Wi-Fi Based Electronic Road Sign for Enhancing the Awareness of Vehicle Driver. Journal of Physics: Con-ference Series, 801, Article ID: 012085. [Google Scholar] [CrossRef
[13] García Oya, J.R., Clemente, R.M., Fort, E.H., Carvajal, R.G. and Chavero, F.M. (2018) Passive RFID-Based Inventory of Traffic Signs on Roads and Urban Environments. Sensors, 18, Article No. 2385. [Google Scholar] [CrossRef] [PubMed]
[14] 张宪忠. 道路交通标识车载展现系统研究[D]: [硕士学位论文]. 南京: 东南大学, 2011.
[15] 诸征斌. 智能交通标志牌[P]. 中国专利, CN201710460322.8. 2019-01-04.
[16] 陆晓苏. 交通标志管理系统及其所应用的方法和存储介质[P]. 中国专利, CN201810495720.8. 2018-12-07.