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Academic Journal of Computing & Information Science, 2020, 3(4); doi: 10.25236/AJCIS.2020.030407.

System Architecture Optimization of the Internet of Vehicles


Xiaoyun Zhou1,*, Liansun Zeng2

Corresponding Author:
Xiaoyun Zhou

1 School of Information Engineering, Shanghai Maritime University, Shanghai 201306, China
2 School of Information Engineering, Shanghai Maritime University, Shanghai 201306, China
*Corresponding Author


In recent years, the concept of the internet of things has been constantly promoted, the technology of the internet of things has been constantly improved, and its fields are more and more extensive. The internet of vehicles developed from telematics has been more and more regarded as a branch field of the internet of things. Although it is a new thing, it develops rapidly and has made great achievements. Relevant applications, services and products emerge one after another. However, through the analysis of existing applications, services and products, it is found that there is still some room for improvement. In particular, in the context of rapid development of communications technology, there is no overall architecture for how to make comprehensive use of existing communication networks to connect vehicles into a network. This paper attempts to propose solutions to the above problems.


System architecture optimization, Internet of vehicles

Cite This Paper

Xiaoyun Zhou, Liansun Zeng. System Architecture Optimization of the Internet of Vehicles. Academic Journal of Computing & Information Science (2020), Vol. 3, Issue 4: 57-65. https://doi.org/10.25236/AJCIS.2020.030407.


[1] Zhang Dengyin et al (2011). A qos model of Space-based integrated Information Network based on Differentiated Services [J]. Journal of Jiangsu University, no.2, pp.108-109
[2] Zhang Dengyin et al (2009). Research on new Network Simulator NS-3 [J]. Computer Technology and Development, no.11, pp.75-76.
[3] Chul-Su Kim et al (2006). Development of Open Telematics Service Based on Gateway and Framework [J]. Icact, no.2, pp.78-79.
[4] Communications industry standard of the People's Republic of China YD/T1292 -Technical Requirements for Media Gateway Control Protocol based on H. 248.
[5] JiBaoFeng, Diana wang, ice ice, xing yu-qi li, Gao Hongfeng, Korea ðª Cheng (2019). Throughput Enhancement method for ultra-dense Network Based on Layered Multi-hop Physical Layer Network Coding [J]. Computer science, pp. 158-159.
[6] Dynamic Channel Allocation method of Emergency Communication Network in Vehicle Networking [J]. Journal of Xi 'an University of Technology. 2019, no.3, pp.102-103.
[7] ZHANG Ning, Feng Cheng, Teng Fei, SUN Mingyang, Kang Chongqing (2019). Convergence of 5G Communication and Ubiquitous Power Internet of Things: Application Analysis and Research Prospect [J]. Wang Yi, Chen Qixin,. Power grid Technology, no.5, pp.78-79.
[8] Tian Qing, Yuan Fangzhou, Zheng Xuanping, Wang Yanping (2019). Research on multi-stage WIFI Bridge Emergency Multimedia Communication System [J].. Signal Processing, no.4, pp.75-76.
[9] Zhang Wenjing, Liu Tingting, Yang Chenyang, WANG Juncai (2019). Resource Planning based on Trajectory Prediction in ultra-dense Networks [J]. Signal Processing, no.4, pp.12-16.
[10] Hu Zhihao, TONG Ning, LIU Qi, ZHENG Yuchao, Lin Xiangning, LI Zhengtian (2019). Distribution terminal site selection and networking strategy in stages, taking into account the influence of communication reliability [J]. Automation of power systems, no.13, pp.89-90.
[11] Zhang Haibo, LI Hu, Chen Shanxue, Zou Jian (2018). Grouping based resource allocation in hybrid Access Mode in ultra-dense Networks [J]. Journal of Beijing University of Posts and Telecommunications, no.3, pp.12-13.