16.7.2.7.38 Vehicle Networks, Road Side Units

Cai, H., Lin, Y.,
A Roadside ITS Data Bus Prototype for Intelligent Highways,
ITS(9), No. 2, June 2008, pp. 344-348.
IEEE DOI 0806
BibRef

Khabbaz, M.J., Alazemi, H.M.K., Assi, C.M.,
Modeling and Delay Analysis of a Retransmission-Based Bundle Delivery Scheme for Intermittent Roadside Communication Networks,
ITS(14), No. 2, 2013, pp. 700-708.
IEEE DOI 1307
Numerical models; vehicular network BibRef

Ibrahim, Q.,
Design, implementation and optimisation of an energy harvesting system for vehicular ad hoc networks' road side units,
IET-ITS(8), No. 3, May 2014, pp. 298-307.
DOI Link 1407
BibRef

Zhou, H.B.[Hai-Bo], Liu, B.[Bo], Hou, F.[Fen], Luan, T.H., Zhang, N.[Ning], Gui, L.[Lin], Yu, Q.[Quan], Shen, X.M.[Xue-Min],
Spatial Coordinated Medium Sharing: Optimal Access Control Management in Drive-Thru Internet,
ITS(16), No. 5, October 2015, pp. 2673-2686.
IEEE DOI 1511
Internet BibRef

Atallah, R.F., Khabbaz, M.J., Assi, C.M.,
Modeling and Performance Analysis of Medium Access Control Schemes for Drive-Thru Internet Access Provisioning Systems,
ITS(16), No. 6, December 2015, pp. 3238-3248.
IEEE DOI 1512
Analytical models BibRef

Silva, C.M., Meira, W., Sarubbi, J.F.M.,
Non-Intrusive Planning the Roadside Infrastructure for Vehicular Networks,
ITS(17), No. 4, April 2016, pp. 938-947.
IEEE DOI 1604
Heuristic algorithms BibRef

Mukherjee, J.C., Gupta, A., Sreenivas, R.C.,
Event Notification in VANET With Capacitated Roadside Units,
ITS(17), No. 7, July 2016, pp. 1867-1879.
IEEE DOI 1608
road traffic BibRef

Reis, A.B., Sargento, S., Tonguz, O.K.,
Parked Cars are Excellent Roadside Units,
ITS(18), No. 9, September 2017, pp. 2490-2502.
IEEE DOI 1709
vehicular ad hoc networks, wireless LAN, dedicated short-range communications technology, self-organizing network approach, Mesh networks, BibRef

Ligo, A.K., Peha, J.M.,
Cost-Effectiveness of Sharing Roadside Infrastructure for Internet of Vehicles,
ITS(19), No. 7, July 2018, pp. 2362-2372.
IEEE DOI 1807
Automobiles, Government, Internet, Logic gates, Macrocell networks, Safety, Throughput, Connected vehicles, DSRC, Internet of vehicles, smart streetlights BibRef

Reis, A.B.[A. Braga], Sargento, S., Tonguz, O.K.,
Smarter Cities With Parked Cars as Roadside Units,
ITS(19), No. 7, July 2018, pp. 2338-2352.
IEEE DOI 1807
Automobiles, Batteries, Monitoring, Public transportation, Real-time systems, Urban areas, Vehicular ad hoc networks, smart transportation BibRef

Wu, J.L.[Jing-Li], Wu, Y.[Yong],
Practical algorithms for allocating the roadside units in VANET,
IET-ITS(14), No. 2, February 2020, pp. 103-109.
DOI Link 2002
BibRef

Du, Y.C.[Yu-Chuan], Wang, F.Q.[Feng-Qi], Zhao, C.[Cong], Zhu, Y.F.[Yi-Fan], Ji, Y.X.[Yu-Xiong],
Quantifying the performance and optimizing the placement of roadside sensors for cooperative vehicle-infrastructure systems,
IET-ITS(16), No. 7, 2022, pp. 908-925.
DOI Link 2206
BibRef

Comert, G.[Gurcan], Rahman, M.[Mizanur], Islam, M.[Mhafuzul], Chowdhury, M.[Mashrur],
Change Point Models for Real-Time Cyber Attack Detection in Connected Vehicle Environment,
ITS(23), No. 8, August 2022, pp. 12328-12342.
IEEE DOI 2208
Adaptation models, Data models, Computational modeling, Cyberattack, Connected vehicles, Real-time systems, roadside equipment BibRef

Magsino, E.R.[Elmer R.], Ho, I.W.H.[Ivan Wang-Hei],
An Enhanced Information Sharing Roadside Unit Allocation Scheme for Vehicular Networks,
ITS(23), No. 9, September 2022, pp. 15462-15475.
IEEE DOI 2209
Roads, Resource management, Information sharing, Urban areas, Spatiotemporal phenomena, Delays, Wireless communication, fairness BibRef

Imran, N.M.[Navid Mohammad], Won, M.[Myounggyu],
Reducing Operation Cost of LPWAN Roadside Sensors Using Cross Technology Communication,
ITS(23), No. 8, August 2022, pp. 11476-11489.
IEEE DOI 2208
Sensors, Data communication, Performance evaluation, Sensor systems, Schedules, Intelligent sensors, Snow, LPWAN, V2X BibRef

Yu, L.J.[Liang-Jie], Zhang, Z.H.[Zi-Hui], Li, J.J.[Jia-Jian], Ma, J.[Jing], Wang, Y.[Yong],
A Multi-Objective Roadside Unit Deployment Model for an Urban Vehicular Ad Hoc Network,
IJGI(12), No. 7, 2023, pp. xx-yy.
DOI Link 2308
BibRef

Liang, B.J.[Bing-Jie], Lu, W.Q.[Wen-Qi], Ran, B.[Bin],
Deploying Roadside Unit Efficiently in VANETs: A Multi-Objective Delay-Based Optimization Strategy Using Lagrangian Relaxation,
ITS(25), No. 2, February 2024, pp. 1646-1660.
IEEE DOI 2402
Roads, Delays, Task analysis, Vehicular ad hoc networks, Real-time systems, Costs, Traffic congestion, VANET BibRef

Zeng, M.H.[Ming-Hua], He, J.[Jing],
Deployment Optimization of Roadside Unit With Failure Probability Based on Stochastic Mixed Traffic Equilibrium,
ITS(25), No. 7, July 2024, pp. 7792-7804.
IEEE DOI 2407
Wireless sensor networks, Vehicular ad hoc networks, Optimization, Stochastic processes, Resource management, Relays, bi-level programming BibRef

Liang, B.J.[Bing-Jie], Wang, F.[Fujun], Ran, B.[Bin],
Optimizing Roadside Unit Deployment in VANETs: A Study on Consideration of Failure,
ITS(25), No. 9, September 2024, pp. 10835-10850.
IEEE DOI 2409
Roads, Vehicular ad hoc networks, Real-time systems, Connected vehicles, Accidents, Programming, Linear programming, random-key genetic algorithm BibRef

Zhao, C.[Cong], Shi, Y.P.[Yu-Peng], Du, Y.C.[Yu-Chuan], Jiang, S.C.[Sheng-Chuan], Ji, Y.X.[Yu-Xiong], Zhao, X.M.[Xiang-Mo],
A Rapid and Convenient Spatiotemporal Calibration Method of Roadside Sensors Using Floating Connected and Automated Vehicle Data,
ITS(25), No. 9, September 2024, pp. 10953-10966.
IEEE DOI 2409
Calibration, Sensors, Trajectory, Roads, Intelligent sensors, Sensor systems, Spatiotemporal phenomena, Smart road, connected and automated vehicles BibRef

Wang, Y.T.[Yu-Ting], Lin, T.Y.[Ting-Yu], Sou, S.I.[Sok-Ian], Chen, L.A.[Lo-An], Tsai, M.H.[Meng-Hsun], Chen, Y.R.[Yean-Ru], Tu, C.H.[Chia-Heng],
Markov Clustering-Based Content Placement in Roadside-Unit Caching With Deadline Constraint,
ITS(25), No. 9, September 2024, pp. 11881-11892.
IEEE DOI 2409
Vehicular ad hoc networks, Mobility models, Cache storage, Probabilistic logic, Clustering algorithms, Vehicle dynamics, vehicular ad hoc networks BibRef

Liang, B.J.[Bing-Jie], Xu, X.Y.[Xin-Yue], Lu, W.Q.[Wen-Qi], Wang, F.[Fujun], Ran, B.[Bin],
Optimizing the Deployment of Static and Mobile Roadside Units Using a Branch-and-Price Algorithm,
ITS(25), No. 11, November 2024, pp. 17078-17091.
IEEE DOI 2411
Roads, Delays, Vehicular ad hoc networks, Costs, Information sharing, Genetic algorithms, Urban areas, Roadside unit deployment, branch-and-price BibRef

Zhang, C.[Chuyao], Wang, J.F.[Jiang-Feng], Luo, D.[Dongyu], Yang, H.[Hao], Yao, J.X.[Jing-Xuan],
Considering traffic characteristics: Roadside unit deployment optimization algorithm based on dynamic division of road network subareas,
IET-ITS(18), No. 11, 2024, pp. 2015-2033.
DOI Link 2411
mathematical programming, network topology, transportation BibRef

Chapter on Motion -- Feature-Based, Long Range, Motion and Structure Estimates, Tracking, Surveillance, Activities continues in
UAV Assisted Vehicle Networks, Aerial Assisted Networks .