[1] Saif Ai Sultan, Moath M, Al Doori, et al. A comprehensive survey on vehicular ad hoc network[J]. Journal of Network and Computer Applications, 2014, 37(1):380-392.
[2] Zarifneshat M, Khadivi P. Using mobile node speed changes for move-ment direction change prediction in a realistic category of mobility mod-els[J]. Journal of Network and Computer Applications, 2013, 36(3):1078-1090.
[3] Fleming B. Smarter and safer vehicles[J]. IEEE Vehicular Technology Magazine, 2012, 7(2):4-9.
[4] Baraa T, Raed A, Mahamod I. Vehicular communication ad hoc routing protocols:A survey[J]. Journal of Network and Computer Applications, 2014, 40(2):363-396.
[5] Jakubiak J, Koucheryavy Y. State of the art and research challenges for VANETs[C]//2008 IEEE 5th Consumer Communications and Networking Conference (CCNC). Las Vegas:IEEE CCP, 2008:912-916.
[6] Whaiduzzaman M, Mehdi S, Abdullah G, et al. A survey on vehicular cloud computing[J]. Journal of Network and Computer Applications, 2014, 40(4):325-344.
[7] Akbari Torkestani J. Mobility prediction in mobile wireless networks[J]. Journal of Network and Computer Applications, 2012, 35(5):1633-1645.
[8] Sharef Z T, Alaradi A E, Sharef B T. Performance evaluation for WiMAX 802.16e OFDMA physical layer[C]//Proceedings of the 4th In-ternational Conference on Computational Intelligence, Communication Systems and Networks (CIC-SyN). Phuket:IEEE, 2012:351-355.
[9] Toor Y, Muhlethaler P, Laouiti A. Vehicle ad hoc networks:Applications and related technical issues[J]. IEEE Communications Surveys Tutorials, 2008, 10(3):74-88.
[10] Moustafa H, Zhang Y. Vehicular networks:Techniques, standards, and applications[M]. Boca Raton Florida:CRC Press, 2009.
[11] Mo J, So H W, Walrand J. Comparison of multichannel MAC protocols[J]. IEEE Transactions on Mobile Computing, 2008, 7(1):50-65.
[12] Lin Liang, Xiang Yong, Chang Cuyu, et al. Performance observations on MAC protocols of VANETs in intelligent transportation system[C]//WRI International Conference on Communications and Mobile Computing 2009(CMC 2009). Yunnan:IEEE, 2009:373-379.
[13] Taleb T, Benslimane A, Letaief K B. Toward an effective risk-con-scious and collaborative vehicular collision avoidance system[J]. IEEE Transactions on Vehicular Technology, 2010, 59(3):1474-1486.
[14] Yu Jianfa, Yin Chengguo. An improved MAC protocol in mobile vehic-ular ad-hoc networks[C]//ICEES 2011. Singapore:Elsevier, 2011:1992-2000.
[15] Xu Qiu, Fan Haikuan, Guo Shuangfei, et al. A context-aware MAC protocol for VANETs[J]. Lecture Notes in Computer Science, 2013, 7992(1):151-162.
[16] 唐伦, 王晨梦, 陈前斌. 车载自组织网络中基于时分复用的异步多信道MAC协议[J]. 计算机学报, 2015, 38(3):673-684. Tang Lun, Wang Chenmeng, Cheng Qianbin. An asynchronous multichannel MAC protocol based on TDMA in vehicular ad hoc network[J]. Chinese Journal of Computers, 2015, 38(3):673-684.
[17] Lochert C, Hartenstein H, Tian J, et al. A routing strategy for vehicular ad hoc networks in city environments[C]//Proceedings of the IEEE Intelligent Vehicles Symposium. Meguro-Ku:IEEE, 2003:156-161.
[18] Lochert C, Mauve M, Füßler H, et al. Geographic routing in city scenarios[J]. ACM SIGMOBILE Mobile Computing and Communications Review, 2005, 9(1):69-72.
[19] Ahmed S, Kanere S S. SKVR:Scalable knowledge-based routing architecture for public transport networks[C]//Proceedings of the 3rd International Workshop on Vehicular Ad Hoc Networks. Los Angeles:ACM, 2006:92-93.
[20] Cheng P C, Weng J T, Tung L C, et al. GeoDTN + Nav:A hybrid geographic and DTN routing with navigation assistance in urban vehicular networks[C]//MobiQuitous ISVCS. Dubin:IEEE, 2008:61-82.
[21] Durresi M, Durresi A, Barolli L. Emergency broadcast protocol for in-ter-vehicle communications[C]//Proceedings of the 11th International Conference on Parallel and Distributed Systems. Fukuoka:IEEE, 2005:402-406.
[22] Korkmaz G, Ekici E, Ozgüner F, et al. Urban multi-hop broadcast protocol for inter-vehicle communication systems[C]//Proceedings of the 1st ACM International Workshop on Vehicular Ad Hoc Networks. New York:ACM, 2004:76-85.
[23] Tao Song, Xia Weiwei, Shen Lianfeng, et al. A cluster-based directional routing protocol in VANET[C]//Proceedings of the 12th IEEE International Conference on Communication Technology. Nanjing:IEEE, 2010:172-175.
[24] 秦华标, 肖志勇. 基于位置信息的稳定分簇路由协议[J]. 华南理工大学学报(自然科学版), 2010, 38(6):1-5. Qing Huabiao, Xiao Zhiyong. A position based stable clustering routing protocol[J]. Journal of South China University of Technology (Natural Science Edition), 2010, 38(6):1-5.
[25] Chen Y S, Lin Y W, Lee S L. A mobicast routing protocol in vehicular ad-hoc networks[J]. Mobile Networks and Applications, 2010, 15(1):20-35.
[26] Kihl M, Sichitiu M, Ekeroth T, et al. Reliable geographical multicast routing in vehicular ad-hoc networks[C]//Proceedings of the 5th International Conference on Wired/Wireless Internet Communications. Berlin:Springer-Verlag, 2007:315-325.
[27] Souza A B, Celestino J, Xavier F A, et al. Stable multicast trees based on ant colony optimization for vehicular ad hoc network[C]//Proceedings of International Conference on Information Networking (ICOIN'13). Bangkok:IEEE, 2013:101-106.
[28] Yiton Y, Tian K, Huang K, et al. D-ODMRP:A destination-driven on-demand multicast routing protocol for mobile ad hoc networks[J]. IET Communications, 2012, 6(9):1025-1031.
[29] Shrestha R K, Sangman M, Ilyong C, et al. Vertex-based multihop vehicle to infrastructure routing for vehicular ad hoc networks[C]//Proceedings of the 43rd Hawaii International Conference on System Sciences. Honolulu:IEEE, 2010:1-7.
[30] Yong Ding, Chen Wang, Li Xiao. A static-node assisted adaptive routing protocol in vehicular Networks[C]//Proceedings of the 4th ACM International Work Shop on Vehicular Ad Hoc Networks. Montreal:ACM, 2007:59-68.
[31] Luo Jie, Gu Xinxing, Zhao Tong, et al. A mobile infrastructure based VANET routing protocol in the urban environment[C]//Proceedings of the 2010 International Conference on Communications and Mobile Computing (CMC). Shenzhen:IEEE, 2010:432-437.
[32] Pan H Y, Jan R H, Jeng A A K, et al. Mobile-gateway routing for vehicular networks[C]//IEEE VTSI APWCS. Singapore:IEEE, 2011:2-10.
[33] Jain R, Puri A, Sengupta R. Geographical routing using partial information for wireless ad hoc networks[J]. IEEE Personal Communications, 2001, 8(1):48-57.
[34] Yoon J, Noble B D, Liu M, et al. Building realistic mobility models from coarse-grained traces[C]//Proceedings of the 4th International Conference on Mobile Systems, Applications and Services. Uppsala:ACM, 2006:177-190.
[35] Fiore M. Mobility models in inter-vehicle communications literature[R]. Torino:Department of Electronics, Polytechnic Institute of Torino, 2009.
[36] 杨卫东, 冯琳琳, 刘伎昭. 车载自组织网络中网络连通特性研究[J]. 通信学报, 2012, 33(Z1):48-53. Yang Weidong, Fen Linlin, Liu Jizhao. Network connectivity characteristics for vehicular ad hoc network[J]. Journal on Communications, 2012, 33(Z1):48-53.
[37] Naumov V, Baumann R, Gross T. An evaluation of inter-vehicle ad hoc networks based on realistic vehicular traces[C]//Proceedings of the 7th ACM International Symposium on Mobile Ad Hoc Networking and Computing. Florence:ACM, 2006:108-119.
[38] Razvan S, Emmanuel C, André-Luc B. Simulation of vehicular adhoc networks:Challenges, review of tools and recommendations[J]. Computer Networks, 2011, 55(14):3179-3188.
[39] Leea E, Ohb S Y, Gerlaa M. RFID assisted vehicle positioning in VANETs[J]. Pervasive Mobile Computing, 2012, 8(2):167-179.
[40] Kakkasageri M S, Manvi S S. Push-pull based critical information gathering in VANETs:Multi-agent system based approach[C]//Proceedings of the IEEE International Conference In Vehicular Electronics and Safety (ICVES 2009). Pune:IEEE, 2009:1-6.
[41] Liu Congyi, Chigan Chunxiao. Structure-less message aggregation (SLMA):Reliably and efficiently improve information precision and certainty for VANETs[C]//Proceedings of the IEEE Global Telecommunications Conference (GLOBECOM 2010). Miami:IEEE, 2010:1-6.
[42] Kakkasageri M S, Manvi S S. Safety information gathering and dissemination in vehicular ad hoc networks:Cognitive agent based approach[C]//Proceedings of the 1st International Conference on Computer Science and Information Technology (CCIT 2011). Bangalore:Springer Berlin Heidelberg, 2011:254-264.
[43] Cao Z. Proof-of-relevance:Filtering false data via authentic consensus in vehicle ad-hoc networks[C]//Proceedings of the IEEE INFOCOM Workshops. Phoenix:IEEE, 2008:1-6.
[44] 刘雪峰, 张玉清, 王鹤, 等. 一种后向撤销隐私安全的车载自组织网络快速匿名消息认证[J]. 协议电子与信息学报, 2014, 36(1):94-100. Liu Xuefeng, Zhang Yuqing, Wang He, et al. An efficient anonymity message authentication with backward secure revocation for vehicular ad hoc networks[J]. Journal of Electronics & Information Technology, 2014, 36(1):94-100.
[45] Hsiao H C. Flooding-resilient broadcast authentication for VANETs[C]//Proceedings of the 17th Annual International Conference on Mobile Computing and Networking. Las Vegas:ACM, 2011:19-23.
[46] Moreno M T. System design for information dissemination in VANETs[C]//Proceedings of the 3rd International Workshop on Intelligent Transportation (WIT). Hamburg:ACM, 2006:27-33.
[47] Koubek M, Rea S, Pesch D. Reliable delay constrained multihop broadcasting in VANETs[J]. EURASIP Journal on Advances in Signal Processing, 2010, 3(4):1-13.
[48] 朱欣娟, 周千明. 一种VANET信息查询模式及分析[J]. 电子科技大学学报, 2013, 42(6):911-915. Zhu Xinjuan, Zhou Qianming. VANET information query mode and its analysis[J]. Journal of University of Electronic Science and Technology of China, 2013, 42(6):911-915.
[49] Sanaei Z, Abolfazli S, Gani A, et al. Heterogeneity in mobile cloud computing:Taxonomy and open challenges[J]. IEEE communications surveys and tutorials, 2013, 16(1):369-392.
[50] Gerla M. Vehicular cloud computing[C]//Proceedings of the 11th Annual Mediterranean Ad Hoc Networking Workshop (Med-HocNet). Ayia:IEEE, 2012:152-155.
[51] Bordley L, Cherry C R, Stephens D, et al. Commercial motor vehicle wireless roadside inspection pilot test[C]//91st Annual Meeting of the Transportation Research Board. Washington:Transportation Research Board, 2012:1312-1335.
[52] Olariu S, Hristov T, Yan G. The next paradigm shift:From vehicular networks to vehicular clouds[C]//Mobile Ad Hoc Networking:Cutting Edge Directions, 2nd. Hoboken:IEEE, 2013:645-700.
[53] Mousannif H, Khalil I, Moatassime H. Cooperation as a Service in VANETs[J]. Journal of Universal Computer Science, 2011, 17(8):1202-1218.
[54] Ma Y, Chowdhury M, Sadek A, et al. Real-time highway traffic condition assessment framework using Vehicle-Infrastructure Integration(VII) with artificial intelligence(AI)[J]. IEEE Transactions on Intelligent Transportation Systems. 2009, 10(4):615-627.
[55] Blosseville J M. Driver assistance systems, a long way to AHS[C]//2006IEEE Intelligent Vehicles Symposium. Meguroku:IEEE, 2006:449-449.
[56] Fussler H, Schnaufer S, Transier M, et al. Vehicular ad-hoc networks:from vision to reality and back[C]//2007 Fourth Annual Conference on Wireless on Demand Network Systems and Services. Obergurgl:IEEE, 2007:80-83.
[57] Ghangurde M. Ford SYNC and microsoft windows embedded automo-tive make digital lifestyle a reality on the road[J]. SAE International Journal of Passenger Cars-Electronic and Electrical Systems, 2010, 3(2):99-105.
