16.7.2.5.11 Vehicle Networks, Vehicle-to-Vehicle Communication, VANET

Yim, S.,
Preview Controller Design for Vehicle Stability With V2V Communication,
ITS(18), No. 6, June 2017, pp. 1497-1506.
IEEE DOI 1706
Acceleration, Linear programming, Mathematical model, Stability analysis, Tires, Vehicles, Vehicular ad hoc networks, Preview control, linear optimal preview control, position-based sampling, vehicle stability control, vehicle-to-vehicle communication. BibRef

Merdrignac, P., Shagdar, O., Nashashibi, F.,
Fusion of Perception and V2P Communication Systems for the Safety of Vulnerable Road Users,
ITS(18), No. 7, July 2017, pp. 1740-1751.
IEEE DOI 1706
Global Positioning System, Protocols, Roads, Safety, Sensors, Vehicles, Vulnerable road users, cooperative ITS, information fusion, vehicle-to-pedestrian, (V2P) BibRef

Chaturvedi, M., Srivastava, S.,
Multi-Modal Design of an Intelligent Transportation System,
ITS(18), No. 8, August 2017, pp. 2017-2027.
IEEE DOI 1708
Cellular networks, Estimation, Global Positioning System, Image edge detection, Probes, Roads, Vehicles, GPS probe, Intelligent transportation system, cellular network, distributed framework, traffic, parameters BibRef

Ge, J.I., Orosz, G.,
Optimal Control of Connected Vehicle Systems With Communication Delay and Driver Reaction Time,
ITS(18), No. 8, August 2017, pp. 2056-2070.
IEEE DOI 1708
Acceleration, Computational modeling, Cruise control, Delays, Optimal control, Optimization, Vehicles, Connected vehicles, delay systems, optimal, control BibRef

Li, Z., Wang, C., Jiang, C.J.,
User Association for Load Balancing in Vehicular Networks: An Online Reinforcement Learning Approach,
ITS(18), No. 8, August 2017, pp. 2217-2228.
IEEE DOI 1708
Femtocells, Learning (artificial intelligence), Load management, Macrocell networks, Vehicle dynamics, User association, load balancing, online reinforcement learning, vehicular, networks BibRef

Liu, J., Cai, B.g., Wang, J.,
Cooperative Localization of Connected Vehicles: Integrating GNSS With DSRC Using a Robust Cubature Kalman Filter,
ITS(18), No. 8, August 2017, pp. 2111-2125.
IEEE DOI 1708
Clocks, Estimation, Kalman filters, Robustness, Satellites, Standards, Vehicles, Cooperative localization, connected vehicles, dedicated short-range communication, global navigation satellite system, robust estimation, sensor, data, fusion BibRef

Azees, M., Vijayakumar, P., Deboarh, L.J.,
EAAP: Efficient Anonymous Authentication With Conditional Privacy-Preserving Scheme for Vehicular Ad Hoc Networks,
ITS(18), No. 9, September 2017, pp. 2467-2476.
IEEE DOI 1709
telecommunication security, signature verification process, Multicast communication, Conditional privacy, anonymous certificates, authentication, security, BibRef

Michau, G., Nantes, A., Bhaskar, A., Chung, E., Abry, P., Borgnat, P.,
Bluetooth Data in an Urban Context: Retrieving Vehicle Trajectories,
ITS(18), No. 9, September 2017, pp. 2377-2386.
IEEE DOI 1709
vehicular ad hoc networks, Bluetooth data sensor, spatially constrained shortest path analysis, traffic information gathering, travel time analysis, trip information extraction, vehicle trajectory retrieval, Roads, Trajectory, Vehicles, constrained shortest path, trajectories. 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

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

Sahoo, J., Cherkaoui, S., Hafid, A., Sahu, P.K.,
Dynamic Hierarchical Aggregation for Vehicular Sensing,
ITS(18), No. 9, September 2017, pp. 2539-2556.
IEEE DOI 1709
data aggregation, vehicular ad hoc networks, data aggregation, dynamic hierarchical aggregation scheme, vehicular sensing, Data aggregation, Roads, Semantics, Sensors, Servers, Vehicle dynamics, Aggregation, road-side unit, vehicular, sensing BibRef

Cruz, S.B., Abrudan, T.E., Xiao, Z., Trigoni, N., Barros, J.,
Neighbor-Aided Localization in Vehicular Networks,
ITS(18), No. 10, October 2017, pp. 2693-2702.
IEEE DOI 1710
BibRef

Huang, X., Zhao, D., Peng, H.,
Empirical Study of DSRC Performance Based on Safety Pilot Model Deployment Data,
ITS(18), No. 10, October 2017, pp. 2619-2628.
IEEE DOI 1710
Automobiles, Data models, Legged locomotion, Meteorology, Roads, Safety, Testing, DSRC, VANET, vehicle-to-infrastructure, communication BibRef

Liu, Y., Wang, Y., Chang, G.,
Efficient Privacy-Preserving Dual Authentication and Key Agreement Scheme for Secure V2V Communications in an IoV Paradigm,
ITS(18), No. 10, October 2017, pp. 2740-2749.
IEEE DOI 1710
Authentication, Encryption, Hardware, Technological innovation, Internet of Vehicles, privacy-preserving, vehicle-to-vehicle, security BibRef

Wu, L., Zhang, Z., Dang, J., Wu, Y.,
Frequency-Domain Intergroup Interference Coordination for V2V Communications,
SPLetters(24), No. 11, November 2017, pp. 1739-1743.
IEEE DOI 1710
Doppler shift, Frequency-domain analysis, Interference, Precoding, Frequency domain, interference coordination, vehicle-to-vehicle, (V2V), communication BibRef

Chen, J., Zhou, H., Zhang, N., Xu, W., Yu, Q., Gui, L., Shen, X.,
Service-Oriented Dynamic Connection Management for Software-Defined Internet of Vehicles,
ITS(18), No. 10, October 2017, pp. 2826-2837.
IEEE DOI 1710
Quality of service, Software, Vehicle dynamics, Vehicular ad hoc networks, intelligent transportation system (ITS), BibRef

Malekian, R., Wu, K., Steenhaut, K., Ye, N.,
Guest Editorial Introduction to the Special Issue on Internet of Things and Sensors Technologies for Intelligent Transportation Systems,
ITS(18), No. 10, October 2017, pp. 2798-2801.
IEEE DOI 1710
Radio access networks, Special issues and sections, Telematics, Traffic control, Vehicular and wireless technologies, Wireless, sensor, networks BibRef

Kasana, R.[Reena], Kumar, S.[Sushil], Kaiwartya, O.[Omprakash], Yan, W.[Wei], Cao, Y.[Yue], Abdullah, A.H.[Abdul Hanan],
Location error resilient geographical routing for vehicular ad-hoc networks,
IET-ITS(11), No. 8, October 2017, pp. 450-458.
DOI Link 1710
BibRef

Xia, Y., Chen, W., Liu, X., Zhang, L., Li, X., Xiang, Y.,
Adaptive Multimedia Data Forwarding for Privacy Preservation in Vehicular Ad-Hoc Networks,
ITS(18), No. 10, October 2017, pp. 2629-2641.
IEEE DOI 1710
Ad hoc networks, Cryptography, Data privacy, Multimedia communication, Privacy, Social network services, Attributed-based encryption, decision tree, multimedia message, outsourcing decryption, vehicular ad-hoc networks BibRef

Dua, A.[Amit], Kumar, N.[Neeraj], Bawa, S.[Seema],
Game theoretic approach for real-time data dissemination and offloading in vehicular ad hoc networks,
RealTimeIP(13), No. 3, September 2017, pp. 627-644.
WWW Link. 1710
BibRef

Scholz, J.[Johannes], Schabus, S.[Stefan],
Towards an Affordance-Based Ad-Hoc Suitability Network for Indoor Manufacturing Transportation Processes,
IJGI(6), No. 9, 2017, pp. xx-yy.
DOI Link 1710
BibRef

Schabus, S.[Stefan], Scholz, J.[Johannes], Lampoltshammer, T.J.[Thomas J.],
Mapping Parallels between Outdoor Urban Environments and Indoor Manufacturing Environments,
IJGI(6), No. 9, 2017, pp. xx-yy.
DOI Link 1710
BibRef

Demestichas, K.[Konstantinos], Adamopoulou, E.[Evgenia], Asthenopoulos, V.[Vasilis], Kosmides, P.[Pavlos],
Robust and cost-efficient experimental design for technical tests of information and communication technology-based solutions in the automotive sector,
IET-ITS(11), No. 7, September 2017, pp. 368-378.
DOI Link 1710
BibRef

Lu, K.[Kai], Hu, J.W.[Jian-Wei], Huang, J.[Jianghui], Tian, D.L.[De-Liang], Zhang, C.[Chao],
Optimisation model for network progression coordinated control under the signal design mode of split phasing,
IET-ITS(11), No. 8, October 2017, pp. 459-466.
DOI Link 1710
BibRef

Shiraishi, Y.[Yoshiaki], Hirotomo, M.[Masanori], Mohri, M.[Masami], Yamamoto, T.[Taisuke],
Delivering CRL with Low Bit Rate Network Coded Communication for ITS,
IEICE(E100-D), No. 10, October 2017, pp. 2440-2448.
WWW Link. 1710
Road to vehicle. BibRef

Parkinson, S., Ward, P., Wilson, K., Miller, J.,
Cyber Threats Facing Autonomous and Connected Vehicles: Future Challenges,
ITS(18), No. 11, November 2017, pp. 2898-2915.
IEEE DOI 1711
Automation, Computer security, Global Positioning System, Hardware, Jamming, Monitoring, Sensors, Connected, autonomous, cyber threats, mitigation, vehicles, vulnerabilities BibRef

Chen, J., Mao, G., Li, C., Zafar, A., Zomaya, A.Y.,
Throughput of Infrastructure-Based Cooperative Vehicular Networks,
ITS(18), No. 11, November 2017, pp. 2964-2979.
IEEE DOI 1711
Cooperative communication, Delays, Internet, Road transportation, Throughput, Vehicular ad hoc networks, Data dissemination, cooperative communication, throughput, vehicle-to-infrastructure communications, BibRef

Azpilicueta, L., Astrain, J.J., Lopez-Iturri, P., Granda, F., Vargas-Rosales, C., Villadangos, J., Perallos, A., Bahillo, A., Falcone, F.,
Optimization and Design of Wireless Systems for the Implementation of Context Aware Scenarios in Railway Passenger Vehicles,
ITS(18), No. 10, October 2017, pp. 2838-2850.
IEEE DOI 1710
Computational modeling, Mathematical model, Solid modeling, Transceivers, Wireless communication, Wireless sensor networks, 3-D ray launching, BibRef

Yuan, T., Krishnan, K., Chen, Q., Breu, J., Roth, T.B., Duraisamy, B., Weiss, C., Maile, M., Gern, A.,
Object Matching for Inter-Vehicle Communication Systems: An IMM-Based Track Association Approach With Sequential Multiple Hypothesis Test,
ITS(18), No. 12, December 2017, pp. 3501-3512.
IEEE DOI 1712
Algorithm design and analysis, Global Positioning System, Radar tracking, Reliability, Wireless communication, sequential multiple hypothesis test (SMHT) BibRef

Tal, I.[Irina], Muntean, G.M.[Gabriel-Miro],
Towards Reasoning Vehicles: A Survey of Fuzzy Logic-Based Solutions in Vehicular Networks,
Surveys(50), No. 6, January 2018, pp. Article No 80.
DOI Link 1801
Vehicular networks and their associated technologies enable an extremely varied plethora of applications and therefore attract increasing attention from a wide audience BibRef

Phusittrakool, A.[Apirath], Jeenanunta, C.[Chawalit], Prathombutr, P.[Passakon],
Effects of predictive horizon on network performance under short-term predictive information,
IET-ITS(12), No. 2, March 2018, pp. 113-119.
DOI Link 1801
BibRef

Khan, S.M.[Sakib M.], Mitchell, J.[Joshua], Chowdhury, M.[Mashrur], Dey, K.[Kakan], Huynh, N.[Nathan],
Operational analysis of a connected vehicle-supported access control on urban arterials,
IET-ITS(12), No. 2, March 2018, pp. 134-142.
DOI Link 1801
BibRef

Kim, Y.H., Peeta, S., He, X.,
An Analytical Model to Characterize the Spatiotemporal Propagation of Information Under Vehicle-to-Vehicle Communications,
ITS(19), No. 1, January 2018, pp. 3-12.
IEEE DOI 1801
Analytical models, Computational modeling, Mathematical model, Numerical models, Vehicle dynamics, Vehicles, epidemic model BibRef

Guo, J., Zhang, Y., Chen, X., Yousefi, S., Guo, C., Wang, Y.,
Spatial Stochastic Vehicle Traffic Modeling for VANETs,
ITS(19), No. 2, February 2018, pp. 416-425.
IEEE DOI 1802
Distribution functions, Probabilistic logic, Roads, Space vehicles, Poisson processes, VANETs, connectivity, inter-vehicle spacing, spatial vehicle distributions BibRef

Xu, C., Quan, W., Zhang, H., Grieco, L.A.,
GrIMS: Green Information-Centric Multimedia Streaming Framework in Vehicular Ad Hoc Networks,
CirSysVideo(28), No. 2, February 2018, pp. 483-498.
IEEE DOI 1802
Adaptation models, Mobile communication, Multimedia communication, Quality of service, Streaming media, vehicular ad hoc networks (VANETs) BibRef

Rodriguez, V.D.[V. Diez], Detournay, J., Vinel, A., Lyamin, N.,
An Approach for Receiver-Side Awareness Control in Vehicular Ad Hoc Networks,
ITS(19), No. 4, April 2018, pp. 1227-1236.
IEEE DOI 1804
Broadcasting, Delays, Receivers, Reliability, Safety, Standards, Vehicular ad hoc networks, ETSI ITS-G5, GCDC 2016, vehicular communication BibRef

Yao, L., Wang, J., Wang, X., Chen, A., Wang, Y.,
V2X Routing in a VANET Based on the Hidden Markov Model,
ITS(19), No. 3, March 2018, pp. 889-899.
IEEE DOI 1804
Delays, Hidden Markov models, Roads, Routing, Routing protocols, Vehicular ad hoc networks, HMM, Predictive routing, VANET BibRef

Shah, S.A.A., Ahmed, E., Rodrigues, J.J.P.C., Ali, I., Noor, R.M.[R. Md],
Shapely Value Perspective on Adapting Transmit Power for Periodic Vehicular Communications,
ITS(19), No. 3, March 2018, pp. 977-986.
IEEE DOI 1804
Adaptation models, Frequency control, Game theory, Power control, Relays, Safety, Standards, DSRC, VANETs, beaconing, congestion control, transmit power control BibRef

Ahmed, S.H., Mu, D., Kim, D.,
Improving Bivious Relay Selection in Vehicular Delay Tolerant Networks,
ITS(19), No. 3, March 2018, pp. 987-995.
IEEE DOI 1804
Data communication, Delays, Downlink, Optimization, Relays, Roads, Vehicular ad hoc networks, VDTNs, downlink data, target vehicles BibRef

Huang, L., Jiang, H., Zhang, Z., Yan, Z., Guo, H.,
Efficient Data Traffic Forwarding for Infrastructure-to-Infrastructure Communications in VANETs,
ITS(19), No. 3, March 2018, pp. 839-853.
IEEE DOI 1804
Companies, Delays, Energy consumption, Intelligent transportation systems, Sensors, vehicular ad hoc network BibRef

Jo, H.J., Kim, I.S., Lee, D.H.,
Reliable Cooperative Authentication for Vehicular Networks,
ITS(19), No. 4, April 2018, pp. 1065-1079.
IEEE DOI 1804
Authentication, Message authentication, Protocols, Reliability, Roads, Synchronization, Anonymity, cooperative authentication, vehicular Ad-hoc NETworks BibRef

Giroire, F., Maureira, J.C.,
Analysis of the Failure Tolerance of Linear Access Networks,
ITS(19), No. 4, April 2018, pp. 1166-1175.
IEEE DOI 1804
Logic gates, Maintenance engineering, Network topology, Teleworking, Topology, Transportation, Wireless fidelity, telecommuting BibRef

Rosenstatter, T., Englund, C.,
Modelling the Level of Trust in a Cooperative Automated Vehicle Control System,
ITS(19), No. 4, April 2018, pp. 1237-1247.
IEEE DOI 1804
Control systems, Decision making, Kalman filters, Radar, Sensor systems, Vehicular ad hoc networks, GCDC 2016, vehicle-to-vehicle communication BibRef

Shen, Y., Lee, J., Jeong, H., Jeong, J., Lee, E., Du, D.H.C.,
SAINT 'Self-Adaptive Interactive Navigation Tool' for Emergency Service Delivery Optimization,
ITS(19), No. 4, April 2018, pp. 1038-1053.
IEEE DOI 1804
Emergency services, Navigation, Road accidents, Roads, Vehicle dynamics, Vehicular ad hoc networks, Navigation, vehicular networks BibRef

Ahmed, E., Gharavi, H.,
Cooperative Vehicular Networking: A Survey,
ITS(19), No. 3, March 2018, pp. 996-1014.
IEEE DOI 1804
Survey, VANETS. Ad hoc networks, Cooperative communication, MIMO communication, Media Access Protocol, Relays, Spatial diversity, vehicular communication BibRef

Almeida, J., Ferreira, J., Oliveira, A.S.R.,
A Medium Guardian for Enhanced Dependability in Safety-Critical Wireless Systems,
ITS(19), No. 3, March 2018, pp. 965-976.
IEEE DOI 1804
Fault tolerance, Fault tolerant systems, Monitoring, Peer-to-peer computing, Protocols, Wireless communication, vehicular networks BibRef

Zhou, Z., Yu, H., Xu, C., Zhang, Y., Mumtaz, S., Rodriguez, J.,
Dependable Content Distribution in D2D-Based Cooperative Vehicular Networks: A Big Data-Integrated Coalition Game Approach,
ITS(19), No. 3, March 2018, pp. 953-964.
IEEE DOI 1804
Big Data, Delays, Device-to-device communication, Games, Predictive models, Resource management, Trajectory, vehicle trajectory prediction BibRef

Alam, M., Rayes, A., He, X., Atiquzzaman, M., Lloret, J., Tsang, K.F.,
Guest Editorial Introduction to the Special Issue on Dependable Wireless Vehicular Communications for Intelligent Transportation Systems (ITS),
ITS(19), No. 3, March 2018, pp. 949-952.
IEEE DOI 1804
Cooperative systems, Device-to-device communication, Real-time systems, Routing protocols, Wireless communications BibRef

Du, Y., Chowdhury, M., Rahman, M., Dey, K., Apon, A., Luckow, A., Ngo, L.B.,
A Distributed Message Delivery Infrastructure for Connected Vehicle Technology Applications,
ITS(19), No. 3, March 2018, pp. 787-801.
IEEE DOI 1804
Context, Distributed databases, Sensors, Smart grids, Transportation, Vehicular ad hoc networks, Wireless communication, experimental test bed BibRef

Luo, F., Wang, S., Gong, Y., Jing, X., Zhang, L.,
Geographical Information Enhanced Cooperative Localization in Vehicular Ad-Hoc Networks,
SPLetters(25), No. 4, April 2018, pp. 556-560.
IEEE DOI 1804
cooperative communication, iterative methods, message passing, satellite navigation, signal sampling, geographical BibRef

Jeong, J., Shen, Y., Jeong, S., Lee, S., Jeong, H., Oh, T., Park, T., Ilyas, M.U., Son, S.H., Du, D.H.C.,
STMAC: Spatio-Temporal Coordination-Based MAC Protocol for Driving Safety in Urban Vehicular Networks,
ITS(19), No. 5, May 2018, pp. 1520-1536.
IEEE DOI 1805
Delays, Directional antennas, Media Access Protocol, Quality of service, Roads, Safety, MAC protocol, Vehicular networks, spatio-temporal BibRef

Khodaei, M., Jin, H., Papadimitratos, P.,
SECMACE: Scalable and Robust Identity and Credential Management Infrastructure in Vehicular Communication Systems,
ITS(19), No. 5, May 2018, pp. 1430-1444.
IEEE DOI 1805
Authentication, Delays, Principal component analysis, Privacy, Public key, Vehicular communications, vehicular PKI BibRef

Ren, M., Zhang, J., Khoukhi, L., Labiod, H., Vèque, V.,
A Unified Framework of Clustering Approach in Vehicular Ad Hoc Networks,
ITS(19), No. 5, May 2018, pp. 1401-1414.
IEEE DOI 1805
Ad hoc networks, Clustering algorithms, Heuristic algorithms, Measurement, Prediction algorithms, Stability criteria, stability BibRef

Zhang, L., Orosz, G.,
Beyond-Line-of-Sight Identification by Using Vehicle-to-Vehicle Communication,
ITS(19), No. 6, June 2018, pp. 1962-1972.
IEEE DOI 1806
Broadcasting, Detectors, Monitoring, Nonlinear dynamical systems, Vehicle dynamics, Vehicular ad hoc networks, vehicle-to-vehicle (V2V) communication BibRef

Wang, J., Liu, K., Xiao, K., Chen, C., Wu, W., Lee, V.C.S., Son, S.H.,
Dynamic Clustering and Cooperative Scheduling for Vehicle-to-Vehicle Communication in Bidirectional Road Scenarios,
ITS(19), No. 6, June 2018, pp. 1913-1924.
IEEE DOI 1806
Data dissemination, Relays, Roads, System performance, Systems architecture, Vehicle dynamics, vehicular ad-hoc networks BibRef

Luo, G., Li, J., Zhang, L., Yuan, Q., Liu, Z., Yang, F.,
sdnMAC: A Software-Defined Network Inspired MAC Protocol for Cooperative Safety in VANETs,
ITS(19), No. 6, June 2018, pp. 2011-2024.
IEEE DOI 1806
Cams, Computer architecture, Media Access Protocol, Safety, Switches, Time division multiple access, MAC, SDN, VANETs, cooperative safety, pre-warning BibRef

Fathi-Kazerooni, S., Kaymak, Y., Rojas-Cessa, R., Feng, J., Ansari, N., Zhou, M., Zhang, T.,
Optimal Positioning of Ground Base Stations in Free-Space Optical Communications for High-Speed Trains,
ITS(19), No. 6, June 2018, pp. 1940-1949.
IEEE DOI 1806
Base stations, Handover, Laser beams, Laser modes, Long Term Evolution, Transceivers, FSO, optimal base station location BibRef

Wen, T., Constantinou, C., Chen, L., Tian, Z., Roberts, C.,
Access Point Deployment Optimization in CBTC Data Communication System,
ITS(19), No. 6, June 2018, pp. 1985-1995.
IEEE DOI 1806
Communication system signaling, Data communication, Interchannel interference, Optimization, Reliability, Wireless LAN, deployment optimization 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

Li, L., Liu, J., Cheng, L., Qiu, S., Wang, W., Zhang, X., Zhang, Z.,
CreditCoin: A Privacy-Preserving Blockchain-Based Incentive Announcement Network for Communications of Smart Vehicles,
ITS(19), No. 7, July 2018, pp. 2204-2220.
IEEE DOI 1807
Authentication, Privacy, Protocols, Reliability, Servers, Smart transportation, Smart transportation, blockchain, vehicular communication BibRef

Zhang, Q., Boukerche, A.,
A Novel Infrastructure-Based Worm Spreading Countermeasure for Vehicular Networks,
ITS(19), No. 7, July 2018, pp. 2188-2203.
IEEE DOI 1807
Analytical models, Curing, Grippers, Roads, Simulation, Topology, Vehicular ad hoc networks, Vehicular networks (VANETs), worms BibRef

Tan, H., Choi, D., Kim, P., Pan, S., Chung, I.,
Comments on 'Dual Authentication and Key Management Techniques for Secure Data Transmission in Vehicular Ad Hoc Networks',
ITS(19), No. 7, July 2018, pp. 2149-2151.
IEEE DOI 1807
See also Dual Authentication and Key Management Techniques for Secure Data Transmission in Vehicular Ad Hoc Networks. Authentication, Cryptography, Data communication, Resistance, Vehicular ad hoc networks, Authentication, VANETs, replay attack BibRef

Poole, A., Kotsialos, A.,
METANET Validation of the Large-Scale Manchester Ring-Road Network Using Gradient-Based and Particle Swarm Optimization,
ITS(19), No. 7, July 2018, pp. 2055-2065.
IEEE DOI 1807
Calibration, Computational modeling, Data models, Heuristic algorithms, Mathematical model, Optimization, particle swarm optimisation BibRef

i Zhang, Y., Zhang, G., Fierro, R., Yang, Y.,
Force-Driven Traffic Simulation for a Future Connected Autonomous Vehicle-Enabled Smart Transportation System,
ITS(19), No. 7, July 2018, pp. 2221-2233.
IEEE DOI 1807
Acceleration, Autonomous vehicles, Computational modeling, Mathematical model, Numerical models, Smart transportation, visualization BibRef

Qiao, S., Han, N., Wang, J., Li, R.H., Gutierrez, L.A., Wu, X.,
Predicting Long-Term Trajectories of Connected Vehicles via the Prefix-Projection Technique,
ITS(19), No. 7, July 2018, pp. 2305-2315.
IEEE DOI 1807
Databases, Hidden Markov models, Pattern matching, Predictive models, Roads, Trajectory, Uncertainty, prefixprojection BibRef

Jahangiri, A., Berardi, V.J., Machiani, S.G.[S. Ghanipoor],
Application of Real Field Connected Vehicle Data for Aggressive Driving Identification on Horizontal Curves,
ITS(19), No. 7, July 2018, pp. 2316-2324.
IEEE DOI 1807
Acceleration, Accidents, Data models, Roads, Safety, Vehicle crash testing, Vehicles, Aggressive driving, traffic safety BibRef

Van, D.D.[Dong Doan], Ai, Q.[Qingsong], Liu, Q.[Quan], Huynh, D.T.[De-Thu],
Efficient caching strategy in content-centric networking for vehicular ad-hoc network applications,
IET-ITS(12), No. 7, September 2018, pp. 703-711.
DOI Link 1808
BibRef

Siegel, J.E., Erb, D.C., Sarma, S.E.,
A Survey of the Connected Vehicle Landscape: Architectures, Enabling Technologies, Applications, and Development Areas,
ITS(19), No. 8, August 2018, pp. 2391-2406.
IEEE DOI 1808
Standards, Safety, Automobiles, Intelligent sensors, Connected vehicles, telematics, automotive applications, road transportation BibRef

Liu, K., Feng, L., Dai, P., Lee, V.C.S., Son, S.H., Cao, J.,
Coding-Assisted Broadcast Scheduling via Memetic Computing in SDN-Based Vehicular Networks,
ITS(19), No. 8, August 2018, pp. 2420-2431.
IEEE DOI 1808
Network coding, Bandwidth, Memetics, Computer architecture, Scheduling, Wireless communication, Data dissemination, memetic algorithm BibRef

Togou, M.A., Khoukhi, L., Hafid, A.,
Performance Analysis and Enhancement of WAVE for V2V Non-Safety Applications,
ITS(19), No. 8, August 2018, pp. 2603-2614.
IEEE DOI 1808
Transceivers, Throughput, Safety, Monitoring, Databases, Analytical models, Hidden Markov models, EDCA, Markov chains, SCHs, WBSS BibRef

Kang, J., Yu, R., Huang, X., Zhang, Y.,
Privacy-Preserved Pseudonym Scheme for Fog Computing Supported Internet of Vehicles,
ITS(19), No. 8, August 2018, pp. 2627-2637.
IEEE DOI 1808
Privacy, Cloud computing, Local government, Edge computing, Computer architecture, Safety, Internet of vehicles, fog computing, game theory BibRef

Fascista, A., Ciccarese, G., Coluccia, A., Ricci, G.,
Angle of Arrival-Based Cooperative Positioning for Smart Vehicles,
ITS(19), No. 9, September 2018, pp. 2880-2892.
IEEE DOI 1809
Vehicular ad hoc networks, Signal processing algorithms, Global Positioning System, Road safety, Heuristic algorithms, angle of arrival (AOA) estimation BibRef

Ahmed, S.H., Bouk, S.H., Yaqub, M.A., Kim, D., Song, H.,
DIFS: Distributed Interest Forwarder Selection in Vehicular Named Data Networks,
ITS(19), No. 9, September 2018, pp. 3076-3080.
IEEE DOI 1809
Storms, Security, Delays, Roads, Reliability, Vehicle dynamics, IP networks, NDN, interest forwarding, vehicular networks BibRef

Xiao, H., Zhang, Z., Chronopoulos, A.T.,
Performance Analysis of Multi-Source Multi-Destination Cooperative Vehicular Networks With the Hybrid Decode-Amplify-Forward Cooperative Relaying Protocol,
ITS(19), No. 9, September 2018, pp. 3081-3086.
IEEE DOI 1809
Protocols, Relays, Resource management, Signal to noise ratio, Power demand, Fading channels, symbol-error-rate BibRef

Teli, S.[Shivani], Chung, Y.H.[Yeon-Ho],
Selective capture based high-speed optical vehicular signaling system,
SP:IC(68), 2018, pp. 241-248.
Elsevier DOI 1810
Optical camera communication (OCC), Selective capture (SC), Light emitting diode (LED), Camera receiver (image sensor), Vehicle-to-vehicle (V2V) signaling BibRef

Shen, M., Sun, J., Zhao, D.,
The Impact of Road Configuration in V2V-Based Cooperative Localization: Mathematical Analysis and Real-World Evaluation,
ITS(19), No. 10, October 2018, pp. 3220-3229.
IEEE DOI 1810
Global navigation satellite system, Roads, Global Positioning System, Satellites, Sun, Guidelines, big data BibRef

Tonguz, O.K.,
Red light, green light, no light: Tomorrow's communicative cars could take turns at intersections,
Spectrum(55), No. 10, October 2018, pp. 24-29.
IEEE DOI 1810
Automobiles, Urban areas, Transceivers, Road traffic, Wireless communication, Vehicular safety, Cameras, Traffic control BibRef

He, D., Ai, B., Guan, K., Zhong, Z., Hui, B., Kim, J., Chung, H., Kim, I.,
Channel Measurement, Simulation, and Analysis for High-Speed Railway Communications in 5G Millimeter-Wave Band,
ITS(19), No. 10, October 2018, pp. 3144-3158.
IEEE DOI 1810
Rails, Rail transportation, 5G mobile communication, Analytical models, Shape, Millimeter wave measurements, ray tracing simulation BibRef

Zhou, T., Tao, C., Salous, S., Liu, L.,
Measurements and Analysis of Angular Characteristics and Spatial Correlation for High-Speed Railway Channels,
ITS(19), No. 2, February 2018, pp. 357-367.
IEEE DOI 1802
5G mobile communication, Analytical models, Antenna arrays, Antenna measurements, Correlation, MIMO, virtual antenna array BibRef

Zhou, T., Tao, C., Salous, S., Liu, L.,
Joint Channel Characteristics in High-Speed Railway Multi-Link Propagation Scenarios: Measurement, Analysis, and Modeling,
ITS(20), No. 6, June 2019, pp. 2367-2377.
IEEE DOI 1906
Long Term Evolution, Correlation, Rail transportation, Interference, Computer architecture, Wireless communication, channel modeling BibRef

Morsalin, S., Mahmud, K., Town, G.E.,
Scalability of Vehicular M2M Communications in a 4G Cellular Network,
ITS(19), No. 10, October 2018, pp. 3113-3120.
IEEE DOI 1810
Machine-to-machine communications, Long Term Evolution, Wireless communication, Scalability, Monitoring, Delays, vehicle management BibRef

Jiang, D., Huo, L., Lv, Z., Song, H., Qin, W.,
A Joint Multi-Criteria Utility-Based Network Selection Approach for Vehicle-to-Infrastructure Networking,
ITS(19), No. 10, October 2018, pp. 3305-3319.
IEEE DOI 1810
Wireless networks, Algorithm design and analysis, Face, Delays, Bandwidth, Heterogeneous wireless networks, energy efficiency, vehicle-to-infrastructure networking BibRef

Förster, D., Löhr, H., Grätz, A., Petit, J., Kargl, F.,
An Evaluation of Pseudonym Changes for Vehicular Networks in Large-Scale, Realistic Traffic Scenarios,
ITS(19), No. 10, October 2018, pp. 3400-3405.
IEEE DOI 1810
Privacy, Vehicles, Road transportation, Vehicular ad hoc networks, Standards, Safety, Observers, C-ITS, vehicular ad hoc networks, tracking BibRef

Fünfrocken, M.[Manuel], Otte, A.[Andreas], Vogt, J.[Jonas], Wolniak, N.[Niclas], Wieker, H.[Horst],
Assessment of ITS architectures,
IET-ITS(12), No. 9, November 2018, pp. 1096-1102.
DOI Link 1810
BibRef

Suo, D.[Dajiang], Siegel, J.E.[Joshua E.], Sarma, S.E.[Sanjay E.],
Merging safety and cybersecurity analysis in product design,
IET-ITS(12), No. 9, November 2018, pp. 1103-1109.
DOI Link 1810
BibRef

Panagiotopoulos, I.[Ilias], Dimitrakopoulos, G.[George],
Diffie-Hellman process and its use in secure and authenticated VC networks,
IET-ITS(12), No. 9, November 2018, pp. 1082-1087.
DOI Link 1810
BibRef

Mattas, K.[Konstantinos], Makridis, M.[Michalis], Hallac, P.[Pauliana], Raposo, M.A.[María Alonso], Thiel, C.[Christian], Toledo, T.[Tomer], Ciuffo, B.[Biagio],
Simulating deployment of connectivity and automation on the Antwerp ring road,
IET-ITS(12), No. 9, November 2018, pp. 1036-1044.
DOI Link 1810
BibRef

Kaviani, A.[Arash], Thompson, R.G.[Russell G.], Rajabifard, A.[Abbas], Sarvi, M.[Majid],
Hybrid machine learning and optimisation method to solve a tri-level road network protection problem,
IET-ITS(12), No. 9, November 2018, pp. 1011-1019.
DOI Link 1810
BibRef

Tang, L.[Lei], Duan, Z.T.[Zong-Tao], Zhu, Y.S.[Yi-Shui],
Data dissemination in service discovery for vehicular ad hoc networks: a survey,
IET-ITS(12), No. 10, December 2018, pp. 1189-1200.
DOI Link 1812
BibRef

Soatti, G., Nicoli, M., Garcia, N., Denis, B., Raulefs, R., Wymeersch, H.,
Implicit Cooperative Positioning in Vehicular Networks,
ITS(19), No. 12, December 2018, pp. 3964-3980.
IEEE DOI 1812
Global navigation satellite system, Distance measurement, Iterative closest point algorithm, Vehicular ad hoc networks, intelligent transportation systems (ITS) BibRef

Hasan, K.F., Feng, Y., Tian, Y.,
GNSS Time Synchronization in Vehicular Ad-Hoc Networks: Benefits and Feasibility,
ITS(19), No. 12, December 2018, pp. 3915-3924.
IEEE DOI 1812
Synchronization, Vehicular ad hoc networks, Global navigation satellite system, Clocks, Mobile computing, GNSS BibRef

Brecht, B., Therriault, D., Weimerskirch, A., Whyte, W., Kumar, V., Hehn, T., Goudy, R.,
A Security Credential Management System for V2X Communications,
ITS(19), No. 12, December 2018, pp. 3850-3871.
IEEE DOI 1812
Privacy, Safety, Cryptography, Risk management, Vehicles, Device-to-device communication, vehicle safety, cryptography, intelligent transportation systems BibRef

Sun, J., Zhang, Z., Xing, C., Xiao, H.,
Uplink Resource Allocation for Relay-Aided Device-to-Device Communication,
ITS(19), No. 12, December 2018, pp. 3883-3892.
IEEE DOI 1812
Device-to-device communication, Relays, Interference, Signal to noise ratio, Resource management, Uplink, power control BibRef

Abdollahi Biron, Z., Dey, S., Pisu, P.,
Real-Time Detection and Estimation of Denial of Service Attack in Connected Vehicle Systems,
ITS(19), No. 12, December 2018, pp. 3893-3902.
IEEE DOI 1812
Cyberattack, Stability analysis, Safety, Mathematical model, Delays, Estimation, Control systems, Connected vehicles, estimation BibRef

Alsarhan, A., Al-Dubai, A.Y., Min, G., Zomaya, A.Y., Bsoul, M.,
A New Spectrum Management Scheme for Road Safety in Smart Cities,
ITS(19), No. 11, November 2018, pp. 3496-3506.
IEEE DOI 1812
intelligent transportation systems, probability, radio networks, radio spectrum management, road safety, road traffic control, wireless mesh networks BibRef

Al-Fuqaha, A., Gharaibeh, A., Mohammed, I., Hussini, S.J., Khreishah, A., Khalil, I.,
Online Algorithm for Opportunistic Handling of Received Packets in Vehicular Networks,
ITS(20), No. 1, January 2019, pp. 285-296.
IEEE DOI 1901
Delays, Safety, Quality of service, Scheduling algorithms, Vehicular ad hoc networks, Prediction algorithms, Receivers, VANET, packet scheduling BibRef

Iqbal, M.S., Hadi, M., Xiao, Y.,
Effect of Link-Level Variations of Connected Vehicles (CV) Proportions on the Accuracy and Reliability of Travel Time Estimation,
ITS(20), No. 1, January 2019, pp. 87-96.
IEEE DOI 1901
Estimation, Reliability, Planning, Trajectory, Standards, Traffic control, Time measurement, Accuracy, connected vehicles, travel time BibRef

Zhou, J., Tian, D., Wang, Y., Sheng, Z., Duan, X., Leung, V.C.M.,
Reliability-Oriented Optimization of Computation Offloading for Cooperative Vehicle-Infrastructure Systems,
SPLetters(26), No. 1, January 2019, pp. 104-108.
IEEE DOI 1901
cooperative communication, dynamic programming, stochastic programming, telecommunication network reliability, dynamic programming BibRef

Nourkhiz Mahjoub, H., Tahmasbi-Sarvestani, A., Osman Gani, S.M., Fallah, Y.P.,
Composite alpha-mu Based DSRC Channel Model Using Large Data Set of RSSI Measurements,
ITS(20), No. 1, January 2019, pp. 205-217.
IEEE DOI 1901
Fading channels, Receivers, Transmitters, Road transportation, Shadow mapping, Channel models, Wireless communication, Kolmogorov-Smirnov test BibRef

Wang, T.[Tong], Wang, X.D.[Xiao-Dan], Cui, Z.[Ziping], Cao, Y.[Yue], Suthaputchakun, C.[Chakkaphong],
Survey on cooperatively V2X downloading for intelligent transport systems,
IET-ITS(13), No. 1, January 2019, pp. 13-21.
DOI Link 1901
BibRef

Yang, L.Q.[Liu-Qing], Li, H.[Huiyun],
Vehicle-to-vehicle communication based on a peer-to-peer network with graph theory and consensus algorithm,
IET-ITS(13), No. 2, February 2019, pp. 280-285.
DOI Link 1902
BibRef

Goudarzi, F., Asgari, H.,
Non-Cooperative Beacon Power Control for VANETs,
ITS(20), No. 2, February 2019, pp. 777-782.
IEEE DOI 1902
Power control, Games, Nash equilibrium, Safety, Estimation, Intelligent transportation systems, Vehicular ad hoc networks, VANETs BibRef

Lu, Z., Qu, G., Liu, Z.,
A Survey on Recent Advances in Vehicular Network Security, Trust, and Privacy,
ITS(20), No. 2, February 2019, pp. 760-776.
IEEE DOI 1902
Privacy, Authentication, Vehicular ad hoc networks, Safety, Tools, VANETs, security, privacy, trust management, simulation tools BibRef

Shin, D., Kim, B., Yi, K., Carvalho, A., Borrelli, F.,
Human-Centered Risk Assessment of an Automated Vehicle Using Vehicular Wireless Communication,
ITS(20), No. 2, February 2019, pp. 667-681.
IEEE DOI 1902
Safety, Radar, Vehicles, Vehicular ad hoc networks, Risk management, Wireless communication, Delays, Risk assessment, automated drive BibRef

Saeed, T., Mylonas, Y., Pitsillides, A., Papadopoulou, V., Lestas, M.,
Modeling Probabilistic Flooding in VANETs for Optimal Rebroadcast Probabilities,
ITS(20), No. 2, February 2019, pp. 556-570.
IEEE DOI 1902
Probabilistic logic, Mathematical model, Ad hoc networks, Protocols, Complexity theory, Peer-to-peer computing, Probability, mathematical model BibRef

Gani, S.M.O., Fallah, Y.P., Bansal, G., Shimizu, T.,
A Study of the Effectiveness of Message Content, Length, and Rate Control for Improving Map Accuracy in Automated Driving Systems,
ITS(20), No. 2, February 2019, pp. 405-420.
IEEE DOI 1902
Sensors, Scalability, Vehicle safety, Vehicle dynamics, Intelligent transportation systems, Communication channels, vehicular ad hoc networks (VANETs) BibRef

Cheng, T., Liu, G., Yang, Q., Sun, J.,
Trust Assessment in Vehicular Social Network Based on Three-Valued Subjective Logic,
MultMed(21), No. 3, March 2019, pp. 652-663.
IEEE DOI 1903
road safety, road vehicles, security of data, social networking (online), traffic engineering computing, distributed algorithm BibRef

Shah, A.F.M.S.[A.F.M. Shahen], Ilhan, H.[Haci], Tureli, U.[Ufuk],
CB-MAC: a novel cluster-based MAC protocol for VANETs,
IET-ITS(13), No. 4, April 2019, pp. 587-595.
DOI Link 1903
BibRef

Wei, S.G.[Shang-Guan], Yu, D.[Du], Guo, C.L.[Chai Lin], Dan, L.[Liu], Shu, W.W.[Wang Wei],
Survey of connected automated vehicle perception mode: from autonomy to interaction,
IET-ITS(13), No. 3, March 2019, pp. 495-505.
DOI Link 1903
BibRef

Wang, X.J.[Xing-Ju], Gou, Y.[Yang], Han, Z.[Zhe], Zhang, Z.M.[Zhan-Min],
Pavement network reliability: A dual-network based on fuzzy set methodology,
IET-ITS(13), No. 3, March 2019, pp. 475-484.
DOI Link 1903
BibRef

Masouleh, A.Z.[A. Zarinbal], Hellinga, B.R.,
Simulation of the Bluetooth Inquiry Process for Application in Transportation Engineering,
ITS(20), No. 3, March 2019, pp. 1020-1030.
IEEE DOI 1903
Bluetooth, Detectors, Transportation, Data models, Performance evaluation, Protocols, Antennas, Bluetooth, inquiry, advanced traffic management systems BibRef

Chaqfeh, M., El-Sayed, H., Lakas, A.,
Efficient Data Dissemination for Urban Vehicular Environments,
ITS(20), No. 4, April 2019, pp. 1226-1236.
IEEE DOI 1904
Data dissemination, Protocols, Delays, Roads, Relays, Layout, Data dissemination, urban layout, traffic density, data redundancy, broadcast overhead BibRef

Lesani, A., Miranda-Moreno, L.,
Development and Testing of a Real-Time WiFi-Bluetooth System for Pedestrian Network Monitoring, Classification, and Data Extrapolation,
ITS(20), No. 4, April 2019, pp. 1484-1496.
IEEE DOI 1904
Wireless fidelity, Sensors, Monitoring, Bicycles, Real-time systems, Airports, Performance evaluation, Bluetooth, classification, WiFi BibRef

Zhang, D., Ge, H., Zhang, T., Cui, Y., Liu, X., Mao, G.,
New Multi-Hop Clustering Algorithm for Vehicular Ad Hoc Networks,
ITS(20), No. 4, April 2019, pp. 1517-1530.
IEEE DOI 1904
Clustering algorithms, Vehicular ad hoc networks, Protocols, Stability criteria, Network architecture, neighbor following strategy BibRef

Chen, C., Liu, L., Qiu, T., Yang, K., Gong, F., Song, H.,
ASGR: An Artificial Spider-Web-Based Geographic Routing in Heterogeneous Vehicular Networks,
ITS(20), No. 5, May 2019, pp. 1604-1620.
IEEE DOI 1905
Routing, Routing protocols, Roads, Delays, Vehicular ad hoc networks, Network topology, Vehicular ad hoc networks, routing protocol, selective forwarding BibRef

Cui, J., Wei, L., Zhang, J., Xu, Y., Zhong, H.,
An Efficient Message-Authentication Scheme Based on Edge Computing for Vehicular Ad Hoc Networks,
ITS(20), No. 5, May 2019, pp. 1621-1632.
IEEE DOI 1905
Authentication, Message authentication, Edge computing, Vehicular ad hoc networks, Cloud computing, Vehicles, VANETs, edge computing BibRef

Atallah, R.F., Assi, C.M., Khabbaz, M.J.,
Scheduling the Operation of a Connected Vehicular Network Using Deep Reinforcement Learning,
ITS(20), No. 5, May 2019, pp. 1669-1682.
IEEE DOI 1905
Machine learning, Optimal scheduling, Internet, Quality of service, Roads, Vehicle dynamics, Safety, internet of Vehicles, scheduling BibRef

Awad, M.M., Seddik, K.G., Elezabi, A.,
Low-Complexity Semi-Blind Channel Estimation Algorithms for Vehicular Communications Using the IEEE 802.11p Standard,
ITS(20), No. 5, May 2019, pp. 1739-1748.
IEEE DOI 1905
Channel estimation, Standards, Receivers, OFDM, Channel models, Delays, Vehicular ad hoc networks, Vehicular communications, IEEE 802.11p standard BibRef

Sun, G., Yu, M., Liao, D., Chang, V.,
Analytical Exploration of Energy Savings for Parked Vehicles to Enhance VANET Connectivity,
ITS(20), No. 5, May 2019, pp. 1749-1761.
IEEE DOI 1905
Vehicular ad hoc networks, Relays, Buildings, Proposals, Roads, Sun, Automobiles, VANET, parked car, energy saving, optimization method BibRef

Wang, R.M.[Run-Min], Xu, Z.G.[Zhi-Gang], Zhao, X.M.[Xiang-Mo], Hu, J.C.[Jin-Chao],
V2V-based method for the detection of road traffic congestion,
IET-ITS(13), No. 5, May 2019, pp. 880-885.
DOI Link 1906
BibRef

Arshad, M.[Muhammad], Ullah, Z.[Zahid], Khalid, M.[Muhammad], Ahmad, N.[Naveed], Khalid, W.[Waqar], Shahwar, D.[Duri], Cao, Y.[Yue],
Beacon trust management system and fake data detection in vehicular ad-hoc networks,
IET-ITS(13), No. 5, May 2019, pp. 780-788.
DOI Link 1906
BibRef

Busari, S.A.[Sherif Adeshina], Khan, M.A.[Muhammad Awais], Huq, K.M.S.[Kazi Mohammed Saidul], Mumtaz, S.[Shahid], Rodriguez, J.[Jonathan],
Millimetre-wave massive MIMO for cellular vehicle-to-infrastructure communication,
IET-ITS(13), No. 6, June 2019, pp. 983-990.
DOI Link 1906
BibRef

Taya, A.[Akihito], Nishio, T.[Takayuki], Morikura, M.[Masahiro], Yamamoto, K.[Koji],
Concurrent Transmission Scheduling for Perceptual Data Sharing in mmWave Vehicular Networks,
IEICE(E102-D), No. 5, May 2019, pp. 952-962.
WWW Link. 1906
BibRef

Liu, Y.[Yi], Wu, J.[Jun], Li, J.H.[Jian-Hua], Yang, W.[Wu], Chen, H.[Hao], Li, G.[Gaolei],
ISRF: interest semantic reasoning based fog firewall for information-centric Internet of Vehicles,
IET-ITS(13), No. 6, June 2019, pp. 975-982.
DOI Link 1906
BibRef

Kawakami, T.[Tomoya], Yoshihisa, T.[Tomoki], Teranishi, Y.[Yuuichi],
A P2P Sensor Data Stream Delivery System That Guarantees the Specified Reachability under Churn Situations,
IEICE(E102-D), No. 5, May 2019, pp. 932-941.
WWW Link. 1906
BibRef

Shen, M., Sun, J., Peng, H., Zhao, D.,
Improving Localization Accuracy in Connected Vehicle Networks Using Rao-Blackwellized Particle Filters: Theory, Simulations, and Experiments,
ITS(20), No. 6, June 2019, pp. 2255-2266.
IEEE DOI 1906
Global navigation satellite system, Receivers, Roads, Satellites, Correlation, Estimation, Atmospheric measurements, Localization, Rao-Blackwellized BibRef

Xiao, H., Chen, Y., Zhang, Q., Chronopoulos, A.T., Zhang, Z., Ouyang, S.,
Joint Clustering and Power Allocation for the Cross Roads Congestion Scenarios in Cooperative Vehicular Networks,
ITS(20), No. 6, June 2019, pp. 2267-2277.
IEEE DOI 1906
Resource management, Roads, Clustering algorithms, Protocols, Relays, Power system reliability, Probability, Cooperative system, bidirectional IHDAF relaying BibRef

Ma, X., Dong, H., Li, P., Jia, L., Liu, X., Qin, Y., Tang, J.,
Adaptive Optimization of Multi-Hop Communication Protocol for Linear Wireless Monitoring Networks on High-Speed Railways,
ITS(20), No. 6, June 2019, pp. 2313-2327.
IEEE DOI 1906
Monitoring, Rail transportation, Optimization, Protocols, Wireless communication, Real-time systems, Energy consumption, latency BibRef

Alzamzami, O., Mahgoub, I.,
Fuzzy Logic-Based Geographic Routing for Urban Vehicular Networks Using Link Quality and Achievable Throughput Estimations,
ITS(20), No. 6, June 2019, pp. 2289-2300.
IEEE DOI 1906
Routing, Routing protocols, Fuzzy logic, Bandwidth, Delays, Intelligent transportation system (ITS), fuzzy logic, available bandwidth estimation BibRef

Abbas, F., Fan, P., Khan, Z.,
A Novel Low-Latency V2V Resource Allocation Scheme Based on Cellular V2X Communications,
ITS(20), No. 6, June 2019, pp. 2185-2197.
IEEE DOI 1906
Resource management, Vehicular ad hoc networks, Device-to-device communication, Reliability, Throughput, latency BibRef

Benabdallah, F.[Fairouz], Hamza, A.[Abdelkrim], Becherif, M.[Mohamed],
On the use of non-orthogonal multiple access for V2V message dissemination,
IET-ITS(13), No. 7, July 2019, pp. 1125-1129.
DOI Link 1906
BibRef

Bengag, A., El Boukhari, M.,
Classification and comparison of routing protocols in VANETs,
ISCV18(1-8)
IEEE DOI 1807
road safety, road traffic, routing protocols, telecommunication network topology, vehicular ad hoc networks, vehicular ad hoc network BibRef

Smiri, S., Boushaba, A., Ben Abbou, R., Zahi, A.,
Geographic and topology based routing protocols in vehicular ad-hoc networks: Performance evaluation and QoS analysis,
ISCV18(1-8)
IEEE DOI 1807
intelligent transportation systems, performance evaluation, quality of service, road safety, routing protocols, routing protocols BibRef

Cao, Y., Chen, Y.,
QoE-based node selection strategy for edge computing enabled Internet-of-Vehicles (EC-IoV),
VCIP17(1-4)
IEEE DOI 1804
cloud computing, quality of experience, EC-IoV, Internet-of-Vehicles, QoE based node selection strategy, quality of experience BibRef

Yan, G., Rawat, D.B., Shi, H.[Hui], Chong, D.,
A cross-layer and optimized privacy method in Vehicular ad-hoc Networks,
ICIVC17(894-898)
IEEE DOI 1708
Privacy, Protocols, Transportation, ad hoc network, cost optimization, privacy, scalability, vehicular, networks BibRef

Stoica, R.A., Severi, S., Freitas de Abreu, G.T.,
A Self-Organizing Frequency Approach to 802.11p Channel Estimation,
ITS(18), No. 7, July 2017, pp. 1930-1942.
IEEE DOI 1706
Channel estimation, Complexity theory, Doppler shift, Estimation, Frequency estimation, OFDM, Standards, IEEE 802.11p, channel estimation, decision directed feedback, orthogonal frequency-division multiplexing (OFDM), self-organizing frequencies, spectral filtering, time tracking, vehicular, networks BibRef

Javed, M.A., Hamida, E.B.,
On the Interrelation of Security, QoS, and Safety in Cooperative ITS,
ITS(18), No. 7, July 2017, pp. 1943-1957.
IEEE DOI 1706
Cams, Quality of service, Roads, Safety, Security, Standards, Vehicles, Intelligent transport systems, QoS, VANET, safety awareness, security BibRef

Ennaciri, A., Erritali, M., Mabrouki, M., Bengourram, J.,
Performance Analysis of Streaming Video over Vehicular Ad-Hoc,
CGiV16(375-380)
IEEE DOI 1608
multimedia communication BibRef

Moudni, H., Er-Rouidi, M., Mouncif, H., El Hadadi, B.,
Attacks against AODV Routing Protocol in Mobile Ad-Hoc Networks,
CGiV16(385-389)
IEEE DOI 1608
mobile ad hoc networks BibRef

Er-Rouidi, M., Moudni, H., Mouncif, H., Merbouha, A.,
An Energy Consumption Evaluation of Reactive and Proactive Routing Protocols in Mobile Ad-Hoc Network,
CGiV16(437-441)
IEEE DOI 1608
mobile ad hoc networks BibRef

Ghazi Zadeh, P., Florin, R., Ghazi Zadeh, A., Olariu, S.,
Reasoning About Mean Time to Failure in Vehicular Clouds,
ITS(17), No. 3, March 2016, pp. 751-761.
IEEE DOI 1603
Airports BibRef

Florin, R., Ghazi Zadeh, A., Ghazi Zadeh, P., Olariu, S.,
Towards Approximating the Mean Time to Failure in Vehicular Clouds,
ITS(19), No. 7, July 2018, pp. 2045-2054.
IEEE DOI 1807
Airports, Cloud computing, Computational modeling, Distribution functions, Fault tolerance, Hardware, Cloud computing, vehicular clouds BibRef

Florin, R., Ghazizadeh, P., Ghazi Zadeh, A., El-Tawab, S., Olariu, S.,
Reasoning About Job Completion Time in Vehicular Clouds,
ITS(18), No. 7, July 2017, pp. 1762-1771.
IEEE DOI 1706
Automobiles, Cloud computing, Computational modeling, Predictive models, Recruitment, Servers, Cloud computing, datacenter, fault tolerance, job assignment, job completion time, vehicular, cloud BibRef

Huang, L.J.[Long-Jiao], Leng, S.P.[Su-Peng], Shao, C.X.[Cai-Xing], Liu, C.Y.[Chang-Yue],
An Information Relevance Related Broadcast scheme for Safety Packets in VANETs,
ICARCV12(1576-1581).
IEEE DOI 1304
Vehicle networks BibRef

Bonuccelli, M.A., Giunta, G., Lonetti, F., Martelli, F.,
Dynamic Frame Rate Adjustment for Real-Time Video in Vehicular Networks,
WSSIP09(1-4).
IEEE DOI 0906
BibRef

Chapter on Motion -- Feature-Based, Long Range, Motion and Structure Estimates, Tracking, Surveillance, Activities continues in
Rail Traffic Controls, Trains .

Last update:Jun 24, 2019 at 10:45:36