Internet of Vehicles in Big Data Era 被引量：22

Internet of Vehicles in Big Data Era

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摘要 As the rapid development of automotive telematics,modern vehicles are expected to be connected through heterogeneous radio access technologies and are able to exchange massive information with their surrounding environment. By significantly expanding the network scale and conducting both real-time and long-term information processing, the traditional Vehicular AdHoc Networks(VANETs) are evolving to the Internet of Vehicles(Io V), which promises efficient and intelligent prospect for the future transportation system. On the other hand, vehicles are not only consuming but also generating a huge amount and enormous types of data, which is referred to as Big Data. In this article, we first investigate the relationship between Io V and big data in vehicular environment, mainly on how Io V supports the transmission, storage, computing of the big data, and how Io V benefits from big data in terms of Io V characterization,performance evaluation and big data assisted communication protocol design. We then investigate the application of Io V big data in autonomous vehicles. Finally, the emerging issues of the big data enabled Io V are discussed. As the rapid development of automotive telematics, modern vehicles are expected to be connected through heteroge- neous radio access technologies and are able to exchange massive information with their surrounding environment. By significantly expanding the network scale and conducting both real-time and long-term information processing, the traditional Vehicular Ad- Hoc Networks （VANETs） are evolving to the Internet of Vehicles （IoV）, which promises efficient and intelligent prospect for the future transportation system. On the other hand, vehicles are not only consuming but also generating a huge amount and enormous types of data, which is referred to as Big Data. In this article, we first investigate the relationship between IoV and big data in vehicular environment, mainly on how IoV supports the transmission, storage, computing of the big data, and how IoV benefits from big data in terms of IoV characterization, performance evaluation and big data assisted communication protocol design. We then investigate the application of IoV big data in autonomous vehicles. Finally, the emerging issues of the big data enabled IoV are discussed.

作者 Wenchao Xu Haibo Zhou Nan Cheng Feng Lyu Weisen Shi Jiayin Chen Xuemin (Sherman) Shen

机构地区 Department of Electrical and Computer Engineering School of Electronic Science and Engineering Department of Computer Science and Engineering IEEE

出处《IEEE/CAA Journal of Automatica Sinica》 SCIE EI CSCD 2018年第1期19-35,共17页 自动化学报（英文版）

基金 supported by the National Natural Science Foundation of China(91638204) Natural Sciences and Engineering Research Council(NSERC)

关键词 Autonomous vehicles big data big data applications data communication IoV vehicular networks Autonomous vehicles big data big data appli-cations data communication IoV vehicular networks.

分类号 TP [自动化与计算机技术]

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参考文献2

1YANGFangchun WANG Shangguang LI Jinglin LIU Zhihan SUN Qibo.An Overview of Internet of Vehicles[J].China Communications,2014,11(10):1-15. 被引量：57
2Heiko G. Seif,Xiaolong Hu.Autonomous Driving in the iCity-HD Maps as a Key Challenge of the Automotive Industry[J].Engineering,2016,2(2):159-162. 被引量：22

二级参考文献20

1Stayton EL Driverless dreams: technological narratives and the shape of the automated car. Cambridge: Massachusetts Institute of Technology; 2015.
2Redzic O, Rabel D. A location cloud for highly automated driving. In: Meyer G, Beiker S, editors Road vehicle automation 2. Switzerland: Springer Interna- tional Publishing; 2015. p. 49-60.
3Dokic J, MiJller B, Meyer G. European roadmap: smart systems for automated driving. Berlin: European Technology Platform on Smart Systems Integration; 2015.
4Jakubiec G, Mullinix B. The use of LiDAR technology in autonomous cruise control systems for automobiles. Conference Session C10, Paper #3124; 2013.
5LiDAR boosts brain power for self-driving cars. Earth Imaging J [lnternet]. 2012 Jan 24 [cited 2016 Apt 23]. Available from: http://eijoumal.com/resourc- esflidar-solutions-showcasejlidar-boosts-brain-power- for-self-driving-cars.
6Buechel M, Frtunikj J, Becker K, Sommer S, Buckl C, Armbruster M, et al. An automated electric vehicle prototype showing new trends in automotive architectures. In: Proceedings of 2015 IEEE 18th International Conference on Intelligent Transportation Systems; 2015 Sep 15-18; Las Palmas, Spain; 2015. p. 1274-9.
7Marks P. Quantum positioning system steps in when GPS fails. New Sci 2014;222(2969): 19.
8Sirui S. Towards autonomous driving at the limit of friction [dissertation]. Waterloo: University of Waterloo; 2015.
9Aeberhard M, Rauch S, Bahram M, Tanzmeister G, Thomas J, Pilat Y, et al. Ex- perience, results and lessons learned from automated driving on Germany's highways. IEEE lntel Transp Sy 2015;7(1 ):42-57.
10Ghosh A, Vardhan V, Mapp G, Gemikonakli O, Loo J. Providing ubiquitous communication using road-side units in VANET systems: unveiling the chal- lenges. In: Proceedings of the 13th International Conference on ITS Telecom- munications (ITST); 2013 Nov 5-7; Tampere, Finland; 2013. p. 74-9.

共引文献77

1缪立新,王发平.V2X车联网关键技术研究及应用综述[J].汽车工程学报,2020,10(1):1-12. 被引量：43
2胡敏,钟炜,毛炜青,丁阳.基于深度学习的超大城市高精度地图关键要素自动提取[J].测绘通报,2024(S01):266-270.
3王翔,冷甦鹏,张可,刘浩.车联社会网络综述[J].通信学报,2015,36(1):199-210. 被引量：4
4ZENG Jianqiu,YANG Mengke.Internet Plus and Networks Convergence[J].China Communications,2015,12(4):42-49. 被引量：6
5陈宇峰,向郑涛,董亚波,夏明.车联网建模和统计性质分析及其路由策略综述[J].计算机应用,2015,35(12):3321-3324. 被引量：2
6李静林,袁泉,杨放春.车联网群智感知与服务[J].中兴通讯技术,2015,21(6):6-9. 被引量：12
7Weiwei Zhang,Xiaoqiang Xi.The Innovation and Development of Internet of Vehicles[J].China Communications,2016,13(5):122-127. 被引量：9
8杨博,陈新,袁建辉,张建生,孙兵晓.基于多元自感知的车辆智能服务系统设计[J].物联网技术,2016,6(7):37-40. 被引量：1
9谢勇,梁伟,李仁发,吴克寿,洪朝群.一种适用于车联网环境的车载CAN信号打包算法[J].软件学报,2016,27(9):2365-2376. 被引量：3
10Lei GAO,Shuo ZHANG,Ziyao LIU,Jinyong LIN,Shuai WANG,Chengwen XING.An overview of multi-antenna technologies for space-ground integrated networks[J].Science China Earth Sciences,2016,59(12):1-18. 被引量：2

同被引文献149

1朱宇,赵祥模,徐志刚,王润民.基于蒙特卡洛模拟的无人车高速公路变道虚拟测试场景自动生成算法[J].中国公路学报,2022,35(3):89-100. 被引量：12
2周博林,张宗实,陈蔯.ASAM OpenX与基于场景的自动驾驶仿真测试[J].标准科学,2021(S01):110-122. 被引量：3
3肖宏.论新时代科技期刊的质量要素与高质量发展[J].中国科技期刊研究,2020(10):1153-1163. 被引量：44
4武晖.普通高校学报提高学术质量的思考与实践——以西安工程大学期刊为例[J].编辑学报,2021,33(5):576-579. 被引量：3
5刘法旺,李艳文.自动驾驶系统功能安全与预期功能安全研究[J].工业技术创新,2021,8(3):62-68. 被引量：6
6蒙昊蓝,陈君毅,邢星宇,陈磊,余卓平.汽车乘员不舒适感的客观表征研究[J].同济大学学报（自然科学版）,2019,47(S01):54-63. 被引量：5
7时瑞浩,宋文明,霍广.基于车联网大数据的车辆智能辅助驾驶功能分析与实时告警系统设计[J].汽车周刊,2022(11):72-73. 被引量：1
8石君友,康锐,田仲.基于信息模型的测试性试验样本集充分性研究[J].北京航空航天大学学报,2005,31(8):874-878. 被引量：15
9鲍秀之,陈新望,卢明岳.建筑物真三维图形的摄影测量方法[J].铁路航测,1996,22(3):1-4. 被引量：1
10王阳阳,靳晓雄,左曙光,马宏霞.基于R-W多体理论的整车动力学仿真平台研究[J].汽车工程,2008,30(1):22-25. 被引量：3

引证文献22

1欧彦,赵姗姗.科技期刊学术质量控制策略探析[J].学报编辑论丛,2023(1):89-93. 被引量：1
2张宏,吕悦晶.基于大数据挖掘技术的车载自组织网络状态异常检测[J].汽车技术,2019(10):48-52. 被引量：7
3董晓丹,吴琼.车载云计算系统中资源分配的优化方法[J].中国电子科学研究院学报,2020,15(1):92-98. 被引量：5
4陈蔚,刘雪娇,夏莹杰.基于层次分析法的车联网多因素信誉评价模型[J].浙江大学学报（工学版）,2020,54(4):722-731. 被引量：19
5曾伟良,吴淼森,孙为军,谢胜利.自动驾驶出租车调度系统研究综述[J].计算机科学,2020,47(5):181-189. 被引量：7
6Chaoyue Zu,Chao Yang,Jian Wang,Wenbin Gao,Dongpu Cao,Fei-Yue Wang.Simulation and Field Testing of Multiple Vehicles Collision Avoidance Algorithms[J].IEEE/CAA Journal of Automatica Sinica,2020,7(4):1045-1063. 被引量：8
7Giuseppe Franzè,Domenico Famularo,Walter Lucia,Francesco Tedesco.A Resilient Control Strategy for Cyber-Physical Systems Subject to Denial of Service Attacks:A Leader-Follower Set-Theoretic Approach[J].IEEE/CAA Journal of Automatica Sinica,2020,7(5):1204-1214. 被引量：3
8刘远仲,张海波,杨嘉,唐天国,谭鹤毅,张强.一种基于物联网技术的车辆内部环境监测报警系统设计[J].宜宾学院学报,2020,20(12):31-36. 被引量：5
9李克强,常雪阳,李家文,许庆,高博麟,潘济安.智能网联汽车云控系统及其实现[J].汽车工程,2020,42(12):1595-1605. 被引量：52
10Lion Silva,Naercio Magaia,Breno Sousa,Anna Kobusińska,António Casimiro,Constandinos X.Mavromoustakis,George Mastorakis,Victor Hugo C.de Albuquerque.Computing Paradigms in Emerging Vehicular Environments:A Review[J].IEEE/CAA Journal of Automatica Sinica,2021,8(3):491-511. 被引量：1

二级引证文献143

1唐小林,陈佳信,高博麟,杨凯,胡晓松,李克强.基于云控系统高精度地图驱动的深度强化学习型混合动力汽车集成控制[J].机械工程学报,2022,58(24):163-177. 被引量：5
2程乐.区块链交易国际规制体系的构建[J].荆楚法学,2022(3):141-151. 被引量：1
3刘平英,李家康,郑柏超.信息物理系统的监督滑模安全控制设计[J].国外电子测量技术,2021,40(12):159-164. 被引量：1
4刘东,吴启晖,Tony QSQuek.面向航空6G的频谱认知智能管控[J].物联网学报,2020,4(1):12-18.
5黄小娟.基于5G通信技术的物流智慧化发展分析[J].商场现代化,2020(5):45-46. 被引量：5
6张庆华,宁小亮,宋志强,和树栋.瓦斯灾害区域安全态势预警技术[J].工矿自动化,2020,46(7):42-48. 被引量：13
7王鹏勇,陈龚涛,赵江烁.基于深度强化学习的机场出租车司机决策方法[J].计算机与现代化,2020(8):94-99.
8宁小亮.基于大数据的煤与瓦斯突出预警技术[J].矿业安全与环保,2020,47(4):51-56. 被引量：16
9刘含若,白玮玲,张悦,杜一帆,王宁利.人工智能深度学习技术在辅助青光眼性眼底病变图像标注中的应用研究[J].中华眼科医学杂志（电子版）,2020,10(4):234-238. 被引量：6
10Giuseppe Franze,Giancarlo Fortino,Xianghui Cao,Giuseppe Maria Luigi Sarne,Zhen Song.Resilient Control in Large-Scale Networked Cyber-Physical Systems: Guest Editorial[J].IEEE/CAA Journal of Automatica Sinica,2020,7(5):1201-1203. 被引量：2

1DONG JinWei,KUANG WenHui,LIU JiYuan.Continuous land cover change monitoring in the remote sensing big data era[J].Science China Earth Sciences,2017,60(12):2223-2224. 被引量：14
2Yi Xiao,Tiangen Chang,Qingfeng Song,Shuyue Wang,Danny Tholen,Yu Wang,Changpeng xin,Guangyong Zheng,Honglong Zhao,Xin-Guang Zhu.ePlant for quantitative and predictive plant science research in the big data era --Lay the foundation for the future model guided crop breeding, engineering and agronomy[J].Frontiers of Electrical and Electronic Engineering in China,2017,5(3):260-271. 被引量：4
3Preface[J].Journal of Computer Science & Technology,2017,32(5):843-844.
4Ning Wang,Yu Gu,Jia Xu,Fang-Fang Li,Ge Yu.Differentially Private Event Histogram Publication on Sequences overGraphs[J].Journal of Computer Science & Technology,2017,32(5):1008-1024.
5Zhang Yang,Xing Zuocheng,Ma Xiao.DIPP—An LLC Replacement Policy for On-chip Dynamic Heterogeneous Multi-core Architecture[J].国际计算机前沿大会会议论文集,2015(1):112-113.

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