Heddebaut, M.,
Deniau, V.,
Adouane, K.,
In-vehicle WLAN radio-frequency communication characterization,
ITS(5), No. 2, June 2004, pp. 114-121.
IEEE Abstract.
0501
BibRef
Blum, J.J.,
Eskandarian, A.,
Hoffman, L.J.,
Challenges of intervehicle ad hoc networks,
ITS(5), No. 4, December 2004, pp. 347-351.
IEEE Abstract.
0501
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Wischhof, L.,
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Rohling, H.,
Information Dissemination in Self-Organizing Intervehicle Networks,
ITS(6), No. 1, March 2005, pp. 90-101.
IEEE Abstract.
0501
BibRef
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
Sen, I.,
Matolak, D.W.,
Vehicle-Vehicle Channel Models for the 5-GHz Band,
ITS(9), No. 2, June 2008, pp. 235-245.
IEEE DOI
0806
BibRef
Sohn, H.,
Lee, J.D.,
Bricker, D.L.,
Hoffman, J.D.,
A Dynamic Programming Algorithm for Scheduling In-Vehicle Messages,
ITS(9), No. 2, June 2008, pp. 226-234.
IEEE DOI
0806
BibRef
Blum, J.J.,
Eskandarian, A.,
A Reliable Link-Layer Protocol for Robust and Scalable Intervehicle
Communications,
ITS(8), No. 1, March 2007, pp. 4-13.
IEEE DOI
0703
BibRef
Palazzi, C.E.,
Roccetti, M.,
Ferretti, S.,
An Intervehicular Communication Architecture for Safety and
Entertainment,
ITS(11), No. 1, March 2010, pp. 90-99.
IEEE DOI
1003
BibRef
Kesting, A.,
Treiber, M.,
Helbing, D.,
Connectivity Statistics of Store-and-Forward Intervehicle Communication,
ITS(11), No. 1, March 2010, pp. 172-181.
IEEE DOI
1003
BibRef
Hosseini Tabatabaei, S.A.,
Fleury, M.,
Qadri, N.N.,
Ghanbari, M.,
Improving Propagation Modeling in Urban Environments for Vehicular Ad
Hoc Networks,
ITS(12), No. 3, September 2011, pp. 705-716.
IEEE DOI
1109
BibRef
Yan, G.,
Olariu, S.,
A Probabilistic Analysis of Link Duration in Vehicular Ad Hoc Networks,
ITS(12), No. 4, December 2011, pp. 1227-1236.
IEEE DOI
1112
BibRef
Cheng, S.T.,
Horng, G.J.,
Chou, C.L.,
Using Cellular Automata to Form Car Society in Vehicular Ad Hoc
Networks,
ITS(12), No. 4, December 2011, pp. 1374-1384.
IEEE DOI
1112
BibRef
Han, C.[Chong],
Dianati, M.,
Tafazolli, R.,
Kernchen, R.,
Shen, X.M.[Xue-Min],
Analytical Study of the IEEE 802.11p MAC Sublayer in Vehicular Networks,
ITS(13), No. 2, June 2012, pp. 873-886.
IEEE DOI
1206
BibRef
Korhonen, T.,
Väärämäki, T.,
Riihimäki, V.,
Salminen, R.,
Karila, A.,
Selecting telecommunications technologies for intelligent transport
system services in Helsinki Municipality,
IET-ITS(6), No. 1, March 2012, pp. 18-28.
DOI Link
1712
BibRef
Sikdar, B.,
Comparison of Broadcasting Schemes for Infrastructure to Vehicular
Communications,
ITS(13), No. 2, June 2012, pp. 492-502.
IEEE DOI
1206
BibRef
Wang, Q.[Qing],
Leng, S.[Supeng],
Fu, H.R.[Hui-Rong],
Zhang, Y.[Yan],
An IEEE 802.11p-Based Multichannel MAC Scheme With Channel Coordination
for Vehicular Ad Hoc Networks,
ITS(13), No. 2, June 2012, pp. 449-458.
IEEE DOI
1206
BibRef
Agarwal, A.,
Starobinski, D.,
Little, T.D.C.,
Phase Transition of Message Propagation Speed in Delay-Tolerant
Vehicular Networks,
ITS(13), No. 1, March 2012, pp. 249-263.
IEEE DOI
1203
BibRef
Cespedes, S.,
Lu, N.,
Shen, X.,
VIP-WAVE: On the Feasibility of IP Communications in 802.11p Vehicular
Networks,
ITS(14), No. 1, March 2013, pp. 82-97.
IEEE DOI
1303
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
Sahu, P.K.,
Wu, E.H.K.,
Sahoo, J.,
Gerla, M.,
BAHG:
Back-Bone-Assisted Hop Greedy Routing for VANET's City Environments,
ITS(14), No. 1, March 2013, pp. 199-213.
IEEE DOI
1303
BibRef
Tian, D.X.[Da-Xin],
Wang, Y.P.[Yun-Peng],
Xia, H.Y.[Hai-Ying],
Cai, F.T.[Feng-Tian],
Clustering multi-hop information dissemination method in vehicular ad
hoc networks,
IET-ITS(7), No. 4, December 2013, pp. 464-472.
DOI Link
1402
learning (artificial intelligence)
BibRef
Zhang, Z.J.[Zi-Jie],
Mao, G.Q.[Guo-Qiang],
Anderson, B.D.O.,
Stochastic Characterization of Information Propagation Process in
Vehicular Ad hoc Networks,
ITS(15), No. 1, February 2014, pp. 122-135.
IEEE DOI
1403
road traffic
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
Huang, C.M.[Chung-Ming],
Lin, S.Y.[Shih-Yang],
Timer-based greedy forwarding algorithm in vehicular ad hoc networks,
IET-ITS(8), No. 4, June 2014, pp. 333-344.
DOI Link
1407
BibRef
Abboud, K.,
Zhuang, W.H.[Wei-Hua],
Stochastic Analysis of a Single-Hop Communication Link in Vehicular
Ad Hoc Networks,
ITS(15), No. 5, October 2014, pp. 2297-2307.
IEEE DOI
1410
Markov processes
BibRef
He, R.[Ruisi],
Molisch, A.F.,
Tufvesson, F.,
Zhong, Z.D.[Zhang-Dui],
Ai, B.[Bo],
Zhang, T.T.[Ting-Ting],
Vehicle-to-Vehicle Propagation Models With Large Vehicle Obstructions,
ITS(15), No. 5, October 2014, pp. 2237-2248.
IEEE DOI
1410
Nakagami channels
BibRef
Shen, X.[Xia],
Cheng, X.[Xiang],
Yang, L.Q.[Liu-Qing],
Zhang, R.Q.[Rong-Qing],
Jiao, B.L.[Bing-Li],
Data Dissemination in VANETs: A Scheduling Approach,
ITS(15), No. 5, October 2014, pp. 2213-2223.
IEEE DOI
1410
access protocols
BibRef
Zhang, R.Q.[Rong-Qing],
Cheng, X.[Xiang],
Yang, L.Q.[Liu-Qing],
Shen, X.[Xia],
Jiao, B.L.[Bing-Li],
A Novel Centralized TDMA-Based Scheduling Protocol for Vehicular
Networks,
ITS(16), No. 1, February 2015, pp. 411-416.
IEEE DOI
1502
Channel state information
BibRef
Zhou, H.B.[Hai-Bo],
Liu, B.[Bo],
Luan, T.H.,
Hou, F.[Fen],
Gui, L.[Lin],
Li, Y.[Ying],
Yu, Q.[Quan],
Shen, X.M.[Xue-Min],
ChainCluster: Engineering a Cooperative Content Distribution
Framework for Highway Vehicular Communications,
ITS(15), No. 6, December 2014, pp. 2644-2657.
IEEE DOI
1412
Internet
BibRef
Du, L.,
Dao, H.,
Information Dissemination Delay in Vehicle-to-Vehicle Communication
Networks in a Traffic Stream,
ITS(16), No. 1, February 2015, pp. 66-80.
IEEE DOI
1502
Communication networks
BibRef
Xiao, H.,
Ouyang, S.,
Power Control Game in Multisource Multirelay Cooperative
Communication Systems With a Quality-of-Service Constraint,
ITS(16), No. 1, February 2015, pp. 41-50.
IEEE DOI
1502
Games
BibRef
Öörni, R.[Risto],
Korhonen, T.O.[Timo O.],
eCall minimum set of data transmission- results from a field test in
Finland,
IET-ITS(8), No. 8, 2014, pp. 639-647.
DOI Link
1502
automated highways. European emergency in car phone system.
BibRef
Bernado, L.,
Zemen, T.,
Tufvesson, F.,
Molisch, A.F.,
Mecklenbrauker, C.F.,
Time- and Frequency-Varying K -Factor of Non-Stationary Vehicular
Channels for Safety-Relevant Scenarios,
ITS(16), No. 2, April 2015, pp. 1007-1017.
IEEE DOI
1504
Bandwidth
BibRef
Ghazal, A.,
Wang, C.,
Ai, B.,
Yuan, D.,
Haas, H.,
A Nonstationary Wideband MIMO Channel Model for High-Mobility
Intelligent Transportation Systems,
ITS(16), No. 2, April 2015, pp. 885-897.
IEEE DOI
1504
Channel models
BibRef
Yang, T.,
Zheng, Z.,
Liang, H.,
Deng, R.,
Cheng, N.,
Shen, X.,
Green Energy and Content-Aware Data Transmissions in Maritime
Wireless Communication Networks,
ITS(16), No. 2, April 2015, pp. 751-762.
IEEE DOI
1504
Algorithm design and analysis
BibRef
Tuohy, S.,
Glavin, M.,
Hughes, C.,
Jones, E.,
Trivedi, M.,
Kilmartin, L.,
Intra-Vehicle Networks: A Review,
ITS(16), No. 2, April 2015, pp. 534-545.
IEEE DOI
1504
Survey, Vehicle Networks. Automotive engineering
BibRef
Zhao, Z.,
Cheng, X.,
Wen, M.,
Yang, L.,
Jiao, B.,
Constructed Data Pilot-Assisted Channel Estimators for Mobile
Environments,
ITS(16), No. 2, April 2015, pp. 947-957.
IEEE DOI
1504
Channel estimation. Vehicle communications.
BibRef
Wu, C.,
Ohzahata, S.,
Ji, Y.,
Kato, T.,
Joint Fuzzy Relays and Network-Coding-Based Forwarding for Multihop
Broadcasting in VANETs,
ITS(16), No. 3, June 2015, pp. 1415-1427.
IEEE DOI
1506
Encoding
BibRef
Kolios, P.,
Panayiotou, C.,
Ellinas, G.,
ExTraCT: Expediting Offloading Transfers Through Intervehicle
Communication Transmissions,
ITS(16), No. 3, June 2015, pp. 1238-1248.
IEEE DOI
1506
IEEE 802.11 Standards
BibRef
Zelikman, D.,
Segal, M.,
Reducing Interferences in VANETs,
ITS(16), No. 3, June 2015, pp. 1582-1587.
IEEE DOI
1506
Clustering algorithms
BibRef
Gomes, G.,
Bandwidth Maximization Using Vehicle Arrival Functions,
ITS(16), No. 4, August 2015, pp. 1977-1988.
IEEE DOI
1508
Bandwidth
BibRef
Gupta, H.P.,
Rao, S.V.,
Tamarapalli, V.T.,
Analysis of Stochastic k-Coverage and Connectivity in Sensor
Networks With Boundary Deployment,
ITS(16), No. 4, August 2015, pp. 1861-1871.
IEEE DOI
1508
Monitoring
BibRef
Chandra, A.,
Blumenstein, J.,
Mikulášek, T.,
Vychodil, J.,
Maršálek, R.,
Prokeš, A.,
Zemen, T.,
Mecklenbräuker, C.F.,
Serial subtractive deconvolution algorithms for time-domain ultra
wide band in-vehicle channel sounding,
IET-ITS(9), No. 9, 2015, pp. 870-880.
DOI Link
1511
IEEE standards
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
Azpilicueta, L.,
Lopez Iturri, P.,
Aguirre, E.,
Astrain, J.J.,
Villadangos, J.,
Zubiri, C.,
Falcone, F.,
Characterization of Wireless Channel Impact on Wireless Sensor
Network Performance in Public Transportation Buses,
ITS(16), No. 6, December 2015, pp. 3280-3293.
IEEE DOI
1512
Indoor environments
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
Tian, D.,
Zhou, J.,
Wang, Y.,
Lu, Y.,
Xia, H.,
Yi, Z.,
A Dynamic and Self-Adaptive Network Selection Method for Multimode
Communications in Heterogeneous Vehicular Telematics,
ITS(16), No. 6, December 2015, pp. 3033-3049.
IEEE DOI
1512
Mathematical model
BibRef
Zhu, L.,
Li, C.,
Wang, Y.,
Luo, Z.,
Liu, Z.,
Li, B.,
Wang, X.,
On Stochastic Analysis of Greedy Routing in Vehicular Networks,
ITS(16), No. 6, December 2015, pp. 3353-3366.
IEEE DOI
1512
Analytical models
BibRef
Bokani, A.,
Hassan, M.,
Kanhere, S.,
Zhu, X.,
Optimizing HTTP-Based Adaptive Streaming in Vehicular Environment
Using Markov Decision Process,
MultMed(17), No. 12, December 2015, pp. 2297-2309.
IEEE DOI
1512
Adaptation 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
Pyun, S.Y.,
Lee, W.,
Cho, D.H.,
Resource Allocation for Vehicle-to-Infrastructure Communication Using
Directional Transmission,
ITS(17), No. 4, April 2016, pp. 1183-1188.
IEEE DOI
1604
Complexity theory
BibRef
Zhang, F.H.[Fei-Hu],
Hinz, G.[Gereon],
Gulati, D.[Dhiraj],
Clarke, D.[Daniel],
Knoll, A.[Alois],
Cooperative vehicle-infrastructure localization based on the symmetric
measurement equation filter,
GeoInfo(20), No. 2, April 2016, pp. 159-178.
WWW Link.
1604
BibRef
Togou, M.A.,
Hafid, A.,
Khoukhi, L.,
SCRP: Stable CDS-Based Routing Protocol for Urban Vehicular Ad Hoc
Networks,
ITS(17), No. 5, May 2016, pp. 1298-1307.
IEEE DOI
1605
Delays
BibRef
Kim, M.S.,
Lee, S.,
Enhanced Network Mobility Management for Vehicular Networks,
ITS(17), No. 5, May 2016, pp. 1329-1340.
IEEE DOI
1605
Handover
BibRef
Liu, K.,
Ng, J.K.Y.,
Wang, J.,
Lee, V.C.S.,
Wu, W.,
Son, S.H.,
Network-Coding-Assisted Data Dissemination via Cooperative
Vehicle-to-Vehicle/-Infrastructure Communications,
ITS(17), No. 6, June 2016, pp. 1509-1520.
IEEE DOI
1606
Bandwidth
BibRef
Cheng, N.,
Lu, N.,
Zhang, N.,
Zhang, X.,
Shen, X.S.,
Mark, J.W.,
Opportunistic WiFi Offloading in Vehicular Environment:
A Game-Theory Approach,
ITS(17), No. 7, July 2016, pp. 1944-1955.
IEEE DOI
1608
cellular radio
BibRef
Liu, Y.,
Feng, J.,
Simeone, O.,
Tang, J.,
Wen, Z.,
Haimovich, A.M.,
Zhou, M.,
Topology Discovery for Linear Wireless Networks With Application to
Train Backbone Inauguration,
ITS(17), No. 8, August 2016, pp. 2159-2170.
IEEE DOI
1608
Interference
BibRef
Khalili, S.,
Feng, J.,
Simeone, O.,
Tang, J.,
Wen, Z.,
Haimovich, A.M.,
Zhou, M.,
Code-Aided Channel Tracking and Decoding Over Sparse Fast-Fading
Multipath Channels With an Application to Train Backbone Networks,
ITS(18), No. 3, March 2017, pp. 481-492.
IEEE DOI
1703
Channel estimation
BibRef
Wu, C.,
Ohzahata, S.,
Ji, Y.,
Kato, T.,
How to Utilize Interflow Network Coding in VANETs:
A Backbone-Based Approach,
ITS(17), No. 8, August 2016, pp. 2223-2237.
IEEE DOI
1608
Network coding
BibRef
Yan, L.,
Fang, X.,
Min, G.,
Fang, Y.,
A Low-Latency Collaborative HARQ Scheme for Control/User-Plane
Decoupled Railway Wireless Networks,
ITS(17), No. 8, August 2016, pp. 2282-2295.
IEEE DOI
1608
Collaboration
BibRef
Asgharpoor Salkuyeh, M.,
Abolhassani, B.,
An Adaptive Multipath Geographic Routing for Video Transmission in
Urban VANETs,
ITS(17), No. 10, October 2016, pp. 2822-2831.
IEEE DOI
1610
Ad hoc networks
BibRef
Zhao, X.,
Liang, X.,
Li, S.,
Ai, B.,
Two-Cylinder and Multi-Ring GBSSM for Realizing and Modeling of
Vehicle-to-Vehicle Wideband MIMO Channels,
ITS(17), No. 10, October 2016, pp. 2787-2799.
IEEE DOI
1610
Channel models
BibRef
Xiao, H.,
Hu, Y.,
Yan, K.,
Ouyang, S.,
Power Allocation and Relay Selection for Multisource Multirelay
Cooperative Vehicular Networks,
ITS(17), No. 11, November 2016, pp. 3297-3305.
IEEE DOI
1609
Cooperative communication
BibRef
Taherkhani, N.,
Pierre, S.,
Centralized and Localized Data Congestion Control Strategy for
Vehicular Ad Hoc Networks Using a Machine Learning Clustering
Algorithm,
ITS(17), No. 11, November 2016, pp. 3275-3285.
IEEE DOI
1609
Delays
BibRef
Bi, Y.,
Zhou, H.,
Xu, W.,
Shen, X.S.,
Zhao, H.,
An Efficient PMIPv6-Based Handoff Scheme for Urban Vehicular Networks,
ITS(17), No. 12, December 2016, pp. 3613-3628.
IEEE DOI
1612
Delays
BibRef
Peppas, K.P.,
Bithas, P.S.,
Efthymoglou, G.P.,
Kanatas, A.G.,
Space Shift Keying Transmission for Intervehicular Communications,
ITS(17), No. 12, December 2016, pp. 3635-3640.
IEEE DOI
1612
Fading channels
BibRef
Boukerche, A.[Azzedine],
Magnano, A.[Alexander],
Aljeri, N.[Noura],
Mobile IP Handover for Vehicular Networks:
Methods, Models, and Classifications,
Surveys(49), No. 4, February 2017, pp. Article No 73.
DOI Link
1702
Survey, Vehicle Networks.
BibRef
Song, Y.S.[Yoo-Seung],
Choi, H.K.[Hyun-Kyun],
Analysis of V2V Broadcast Performance Limit for WAVE Communication
Systems Using Two-Ray Path Loss Model,
ETRI(39), No. 2, April 2017, pp. 213-221.
DOI Link
1704
BibRef
Harrabi, S.[Samira],
Ben Jaafar, I.[Ines],
Ghedira, K.[Khaled],
Routing Challenges and Solutions in Vehicular Ad hoc Networks,
Sensors(206), No. 11, November 2016, pp. 31-42.
HTML Version.
1705
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
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
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
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
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.H.[Jiang-Hui],
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
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
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
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
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
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
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
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
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
Van, D.D.[Dong Doan],
Ai, Q.S.[Qing-Song],
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
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,
Scheduling, Wireless communication, Data dissemination,
memetic algorithm
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
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
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
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
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
Yang, L.Q.[Liu-Qing],
Li, H.Y.[Hui-Yun],
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
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
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
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
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
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
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
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
Nie, W.,
Liu, K.,
Lee, V.C.S.,
Duan, Y.,
Nutanong, S.,
Vehdoop: A Scalable Analytical Processing Framework for Vehicular
Sensor Networks,
ITS(20), No. 8, August 2019, pp. 3104-3114.
IEEE DOI
1908
Task analysis, Wireless communication, Data processing, Bandwidth,
Wireless sensor networks, Clustering algorithms,
clustering
BibRef
Roger, S.,
Martín-Sacristán, D.,
Garcia-Roger, D.,
Monserrat, J.F.,
Spapis, P.,
Kousaridas, A.,
Ayaz, S.,
Kaloxylos, A.,
Low-Latency Layer-2-Based Multicast Scheme for Localized V2X
Communications,
ITS(20), No. 8, August 2019, pp. 2962-2975.
IEEE DOI
1908
Long Term Evolution, Delays, Unicast,
Microprocessors, Servers, Receivers, Low-latency, V2V, MBMS,
multicast
BibRef
Khan, Z.,
Fan, P.,
Fang, S.,
Abbas, F.,
An Unsupervised Cluster-Based VANET-Oriented Evolving Graph (CVoEG)
Model and Associated Reliable Routing Scheme,
ITS(20), No. 10, October 2019, pp. 3844-3859.
IEEE DOI
1910
Reliability, Routing, Vehicular ad hoc networks, Vehicle dynamics,
Routing protocols, Road transportation, Evolving graph, VoEG model,
link reliability
BibRef
Wu, J.,
Lu, H.,
Xiang, Y.,
Wu, R.,
Wang, F.,
MBR: A Map-Based Relaying Algorithm For Reliable Data Transmission
Through Intersection in VANETs,
ITS(20), No. 10, October 2019, pp. 3661-3674.
IEEE DOI
1910
Routing protocols, Routing, Relays, Buildings,
Vehicular ad hoc networks, Data communication,
vehicular ad hoc network
BibRef
Meneguette, R.I.,
Boukerche, A.,
Pimenta, A.H.M.,
AVARAC: An Availability-Based Resource Allocation Scheme for
Vehicular Cloud,
ITS(20), No. 10, October 2019, pp. 3688-3699.
IEEE DOI
1910
Resource management, Cloud computing, Aggregates,
Transportation, Computer science,
intelligent transport system
BibRef
Sohail, M.[Muhammad],
Wang, L.M.[Liang-Min],
Ali, R.[Rashid],
Rahim, S.[Sajjad],
Yao, J.Y.[Jia-Ying],
Efficient data handover and intelligent information assessment in
software-defined vehicular social networks,
IET-ITS(13), No. 12, December 2019, pp. 1814-1821.
DOI Link
1912
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
Limouchi, E.,
Mahgoub, I.,
Volunteers Dilemma Game Inspired Broadcast Scheme for Vehicular Ad
Hoc Networks,
ITS(20), No. 12, December 2019, pp. 4439-4449.
IEEE DOI
2001
Protocols, Vehicular ad hoc networks, Games, Fuzzy logic, Bandwidth,
Spread spectrum communication, Wireless broadcast, VANET,
contention window
BibRef
Kühlmorgen, S.,
Lu, H.,
Festag, A.,
Kenney, J.,
Gemsheim, S.,
Fettweis, G.,
Evaluation of Congestion-Enabled Forwarding With Mixed Data Traffic
in Vehicular Communications,
ITS(21), No. 1, January 2020, pp. 233-247.
IEEE DOI
2001
Logic gates, Routing, Spread spectrum communication, Reliability,
Delays, Vehicle-to-everything, Protocols, RORA
BibRef
Liang, L.,
Ye, H.,
Yu, G.,
Li, G.Y.,
Deep-Learning-Based Wireless Resource Allocation With Application to
Vehicular Networks,
PIEEE(108), No. 2, February 2020, pp. 341-356.
IEEE DOI
2001
Deep learning, reinforcement learning (RL), resource allocation,
vehicular networks, wireless communications
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
Msongaleli, D.L.[Dawson Ladislaus],
Kucuk, K.[Kerem],
Optimal resource utilisation algorithm for visible light
communication-based vehicular ad-hoc networks,
IET-ITS(14), No. 2, February 2020, pp. 65-72.
DOI Link
2002
BibRef
Rivoirard, L.,
Wahl, M.,
Sondi, P.,
Multipoint Relaying Versus Chain-Branch-Leaf Clustering Performance
in Optimized Link State Routing-Based Vehicular Ad Hoc Networks,
ITS(21), No. 3, March 2020, pp. 1034-1043.
IEEE DOI
2003
Routing, Routing protocols, Relays, Vehicular ad hoc networks, Roads,
Network topology, Clustering, routing protocols,
performance evaluation
BibRef
Chettibi, S.[Saloua],
Combination of HF set and MCDM for stable clustering in VANETs,
IET-ITS(14), No. 3, March 2020, pp. 190-195.
DOI Link
2003
BibRef
Mishra, D.[Dheerendra],
Kumar, V.[Vinod],
Dharminder, D.[Dharminder],
Rana, S.[Saurabh],
SFVCC: Chaotic map-based security framework for vehicular cloud
computing,
IET-ITS(14), No. 4, April 2020, pp. 241-249.
DOI Link
2004
BibRef
And:
Reply to Comments:
IET-ITS(14), No. 12, December 2020, pp. 1724-1724.
DOI Link
2011
See also Comment on SFVCC: Chaotic map-based security framework for vehicular cloud computing.
BibRef
Tamani, N.,
Brik, B.,
Lagraa, N.,
Ghamri-Doudane, Y.,
On Link Stability Metric and Fuzzy Quantification for Service
Selection in Mobile Vehicular Cloud,
ITS(21), No. 5, May 2020, pp. 2050-2062.
IEEE DOI
2005
Cloud computing, Stability analysis, Measurement,
Vehicular ad hoc networks, Linguistics, Aggregates,
user preferences
BibRef
Marinescu, D.C.,
Olariu, S.,
Guest Editorial Special Issue on Vehicular Clouds,
ITS(21), No. 6, June 2020, pp. 2637-2639.
IEEE DOI
2006
BibRef
Meneguette, R.I.,
Boukerche, A.,
Vehicular Clouds Leveraging Mobile Urban Computing Through Resource
Discovery,
ITS(21), No. 6, June 2020, pp. 2640-2647.
IEEE DOI
2006
Cloud computing, Data centers, Vehicle dynamics,
Quality of service, Dynamic scheduling,
probabilistic methods
BibRef
Olariu, S.,
A Survey of Vehicular Cloud Research: Trends, Applications and
Challenges,
ITS(21), No. 6, June 2020, pp. 2648-2663.
IEEE DOI
2006
Cloud computing, Virtualization, Reliability, Sensors,
Wireless communication, Computational modeling,
challenges
BibRef
Sun, G.,
Zhang, Y.,
Yu, H.,
Du, X.,
Guizani, M.,
Intersection Fog-Based Distributed Routing for V2V Communication in
Urban Vehicular Ad Hoc Networks,
ITS(21), No. 6, June 2020, pp. 2409-2426.
IEEE DOI
2006
Routing, Roads, Relays, Fuzzy logic, Vehicular ad hoc networks,
Routing protocols, VANETs, V2V communication,
ACO algorithm
BibRef
Wen, S.,
Guo, G.,
Sampled-Data Control for Connected Vehicles With Markovian Switching
Topologies and Communication Delay,
ITS(21), No. 7, July 2020, pp. 2930-2942.
IEEE DOI
2007
Topology, Delays, Switches, Network topology, Aerodynamics,
Vehicular ad hoc networks, Sampled-data control, disturbance
BibRef
Evdokimova, E.,
Vinel, A.,
Lyamin, N.,
Fiems, D.,
Internet Provisioning in VANETs:
Performance Modeling of Drive-Thru Scenarios,
ITS(21), No. 7, July 2020, pp. 2801-2815.
IEEE DOI
2007
Markov processes, Numerical models, Analytical models,
Queueing analysis, Quality of service, Throughput, Downlink,
queueing analysis
BibRef
Song, K.,
Liu, F.,
Wang, P.,
Wang, C.,
Sensing Performance of Multi-Antenna Energy Detector With Temporal
Signal Correlation in Cognitive Vehicular Networks,
SPLetters(27), 2020, pp. 1050-1054.
IEEE DOI
2007
Correlation, Standards, Random variables, Detectors,
Eigenvalues and eigenfunctions, Matrix decomposition,
random matrix theory
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
Ghazizadeh, A.[Aida],
Ghazizadeh, P.[Puya],
Mukkamala, R.[Ravi],
Olariu, S.[Stephan],
Reasoning About Expected Job Completion Time in Dynamic Vehicular
Clouds,
ITS(24), No. 8, August 2023, pp. 8279-8289.
IEEE DOI
2308
Cloud computing, Task analysis, Method of moments,
Vehicle dynamics, Approximation algorithms, Random variables,
moments
BibRef
Florin, R.,
Olariu, S.,
Toward Approximating Job Completion Time in Vehicular Clouds,
ITS(20), No. 8, August 2019, pp. 3168-3177.
IEEE DOI
1908
Cloud computing, Random variables, Approximation algorithms,
Method of moments, Hardware, Distribution functions,
job completion time
BibRef
Jameel, F.,
Javed, M.A.,
Ngo, D.T.,
Performance Analysis of Cooperative V2V and V2I Communications Under
Correlated Fading,
ITS(21), No. 8, August 2020, pp. 3476-3484.
IEEE DOI
2008
Fading channels, Antennas, Signal to noise ratio, Reliability,
Error probability, Games, Vehicular ad hoc networks,
vehicle-to-vehicle (V2V)
BibRef
Sliwa, B.,
Falkenberg, R.,
Liebig, T.,
Piatkowski, N.,
Wietfeld, C.,
Boosting Vehicle-to-Cloud Communication by Machine Learning-Enabled
Context Prediction,
ITS(21), No. 8, August 2020, pp. 3497-3512.
IEEE DOI
2008
Sensors, Data transfer, Optimization,
Intelligent transportation systems, Long Term Evolution,
mobile sensors
BibRef
Kilari, V.T.,
Yu, R.,
Misra, S.,
Xue, G.,
Robust Revocable Anonymous Authentication for Vehicle to Grid
Communications,
ITS(21), No. 11, November 2020, pp. 4845-4857.
IEEE DOI
2011
Charging stations, Authentication, Privacy, Robustness,
Electric vehicle charging, Power grids, Smart grid,
revocable anonymity
BibRef
Abbasi, M.[Mahdi],
Yaghoobikia, M.[Mina],
Rafiee, M.[Milad],
Jolfaei, A.[Alireza],
Khosravi, M.R.[Mohammad R.],
Energy-efficient workload allocation in fog-cloud based services of
intelligent transportation systems using a learning classifier system,
IET-ITS(14), No. 11, November 2020, pp. 1484-1490.
DOI Link
2010
BibRef
Dai, M.,
Lu, S.,
Zhang, N.,
Li, X.,
Wang, H.,
Error Correction CP-BZD Storage Codes for Content Delivery in
Drive-Thru Internet,
ITS(21), No. 11, November 2020, pp. 4869-4882.
IEEE DOI
2011
Decoding, Complexity theory, Wireless communication, Internet,
Delays, Communication system security, Iterative decoding,
self-error correction
BibRef
Wang, X.,
Li, Y.,
Vehicular Named Data Networking Framework,
ITS(21), No. 11, November 2020, pp. 4705-4714.
IEEE DOI
2011
Data acquisition, Delays, Topology, Unicast, Storms,
Clustering algorithms, Intelligent transportation systems,
consumer handover
BibRef
Irshad, A.[Azeem],
Chaudhry, S.A.[Shehzad Ashraf],
Comment on 'SFVCC: Chaotic map-based security framework for vehicular
cloud computing',
IET-ITS(14), No. 12, December 2020, pp. 1723-1723.
DOI Link
2011
BibRef
And:
Further comments on 'SFVCC: Chaotic map-based security framework for
vehicular cloud computing',
IET-ITS(14), No. 12, December 2020, pp. 1725-1725.
DOI Link
2011
See also SFVCC: Chaotic map-based security framework for vehicular cloud computing.
BibRef
Nagalapur, K.K.,
Ström, E.G.,
Brännström, F.,
Carlsson, J.,
Karlsson, K.,
Robust Connectivity With Multiple Directional Antennas for Vehicular
Communications,
ITS(21), No. 12, December 2020, pp. 5305-5315.
IEEE DOI
2012
Receiving antennas, Robustness, Signal to noise ratio,
Transmitters, Antenna accessories, Robustness,
analog combining network
BibRef
Hisham, A.,
Yuan, D.,
Ström, E.G.,
Brännström, F.,
Adjacent Channel Interference Aware Joint Scheduling and Power
Control for V2V Broadcast Communication,
ITS(22), No. 1, January 2021, pp. 443-456.
IEEE DOI
2012
Power control, Transmitters, Processor scheduling,
Dynamic scheduling, Time-frequency analysis,
power control
BibRef
Mittal, S.,
Secure V2V and V2I Technologies for the Next-Generation Intelligent
Transportation Systems,
Computer(54), No. 2, February 2021, pp. 4-6.
IEEE DOI
2102
Intelligent transportation systems, Cloud computing,
Connected vehciles, Next generation networking,
Vehicular ad hoc networks
BibRef
Feng, S.[Shuo],
Feng, Y.H.[Yi-Heng],
Yu, C.,
Zhang, Y.[Yi],
Liu, H.X.[Henry X.],
Testing Scenario Library Generation for Connected and Automated
Vehicles, Part I: Methodology,
ITS(22), No. 3, March 2021, pp. 1573-1582.
IEEE DOI
2103
Testing, Libraries, Measurement, Safety, Roads, Vehicle dynamics,
Search problems, Connected and automated vehicles,
functionality
BibRef
Feng, S.[Shuo],
Feng, Y.H.[Yi-Heng],
Sun, H.[Haowei],
Bao, S.[Shan],
Zhang, Y.[Yi],
Liu, H.X.[Henry X.],
Testing Scenario Library Generation for Connected and Automated
Vehicles, Part II: Case Studies,
ITS(22), No. 9, September 2021, pp. 5635-5647.
IEEE DOI
2109
Libraries, Testing, Safety, Frequency measurement, Indexes,
Linear programming, Estimation, Connected and automated vehicles,
reinforcement learning
BibRef
Mansour, A.,
Malik, K.M.,
Alkaff, A.,
Kanaan, H.,
ALMS: Asymmetric Lightweight Centralized Group Key Management
Protocol for VANETs,
ITS(22), No. 3, March 2021, pp. 1663-1678.
IEEE DOI
2103
BibRef
And:
Correction:
ITS(22), No. 3, March 2021, pp. 1945-1945.
IEEE DOI
2103
Protocols, Vehicle dynamics, Cryptography, Safety,
Computational efficiency, Roads, Group key management, VANETs,
computational cost
BibRef
Granda, F.[Fausto],
Azpilicueta, L.[Leyre],
Celaya-Echarri, M.[Mikel],
Lopez-Iturri, P.[Peio],
Vargas-Rosales, C.[Cesar],
Falcone, F.[Francisco],
Spatial V2X Traffic Density Channel Characterization for Urban
Environments,
ITS(22), No. 5, May 2021, pp. 2761-2774.
IEEE DOI
2105
Microscopy, Hidden Markov models, Wireless communication,
Urban areas, Delays,
microscopic vehicular simulator
BibRef
Steinmetz, E.[Erik],
Wildemeersch, M.[Matthias],
Quek, T.Q.S.[Tony Q. S.],
Wymeersch, H.[Henk],
Packet Reception Probabilities in Vehicular Communications Close to
Intersections,
ITS(22), No. 5, May 2021, pp. 2823-2833.
IEEE DOI
2105
Roads, Media Access Protocol, Interference, Fading channels,
Propagation losses, Analytical models, Throughput,
stochastic geometry
BibRef
Yang, T.T.[Ting-Ting],
Kong, L.Z.[Ling-Zheng],
Zhao, N.[Nan],
Sun, R.J.[Rui-Jin],
Efficient Energy and Delay Tradeoff for Vessel Communications in SDN
Based Maritime Wireless Networks,
ITS(22), No. 6, June 2021, pp. 3800-3812.
IEEE DOI
2106
Delays, Energy consumption, Optimization, Resource management, Sun,
Minimization, Communication networks, Software defined networks,
Lyapunov optimization
BibRef
Jiang, Y.[Yu],
Wang, M.Z.[Ming-Zhe],
Su, Z.[Zhuo],
Yang, Y.X.[Yi-Xiao],
Wang, H.H.[Hui-Hui],
Formal Design of Multi-Function Vehicle Bus Controller,
ITS(22), No. 6, June 2021, pp. 3880-3889.
IEEE DOI
2106
Computational modeling, Automata, Compounds, Data models, VHDL,
Standards, Semantics, Model-driven design,
vehicle bus controller (VBC)
BibRef
Zhao, L.[Liang],
Yang, K.Q.[Kai-Qi],
Tan, Z.Y.[Zhi-Yuan],
Li, X.W.[Xian-Wei],
Sharma, S.[Suraj],
Liu, Z.[Zhi],
A Novel Cost Optimization Strategy for SDN-Enabled UAV-Assisted
Vehicular Computation Offloading,
ITS(22), No. 6, June 2021, pp. 3664-3674.
IEEE DOI
2106
Task analysis, Servers, Buildings, Unmanned aerial vehicles,
Vehicle dynamics, Wireless communication, Relays,
game theory
BibRef
Gao, H.H.[Hong-Hao],
Liu, C.[Can],
Li, Y.[Youhuizi],
Yang, X.X.[Xiao-Xian],
V2VR: Reliable Hybrid-Network-Oriented V2V Data Transmission and
Routing Considering RSUs and Connectivity Probability,
ITS(22), No. 6, June 2021, pp. 3533-3546.
IEEE DOI
2106
Routing, Routing protocols, Reliability, Vehicular ad hoc networks,
Wireless communication, Data communication,
data transmission and routing
BibRef
Celes, C.[Clayson],
Boukerche, A.[Azzedine],
Loureiro, A.A.F.[Antonio A. F.],
Mobility Trace Analysis for Intelligent Vehicular Networks:
Methods, Models, and Applications,
Surveys(54), No. 3, April 2021, pp. xx-yy.
DOI Link
2106
Survey, VANET. survey, Vehicular networks, topology, data mining, data analysis,
vanet, mobility, routing
BibRef
Abdullah, M.[Muhammad],
Raza, I.[Imran],
Zia, T.[Tanveer],
Hussain, S.A.[Syed Asad],
Interest flooding attack mitigation in a vehicular named data network,
IET-ITS(15), No. 4, 2021, pp. 525-537.
DOI Link
2106
BibRef
Ansari, K.[Keyvan],
Joint use of DSRC and C-V2X for V2X communications in the 5.9 GHz ITS
band,
IET-ITS(15), No. 2, 2021, pp. 213-224.
DOI Link
2106
BibRef
Li, J.[Jun],
Dang, S.P.[Shu-Ping],
Yan, Y.[Yier],
Peng, Y.Y.[Yu-Yang],
Al-Rubaye, S.[Saba],
Tsourdos, A.[Antonios],
Generalized Quadrature Spatial Modulation and its Application to
Vehicular Networks With NOMA,
ITS(22), No. 7, July 2021, pp. 4030-4039.
IEEE DOI
2107
Indexes, Modulation, OFDM, NOMA, Transmitting antennas, Bit error rate,
Receiving antennas, Vehicular communications, spatial modulation,
bit error rate
BibRef
Abbasi, M.[Mahdi],
Rezaei, H.[Hajar],
Menon, V.G.[Varun G.],
Qi, L.[Lianyong],
Khosravi, M.R.[Mohammad R.],
Enhancing the Performance of Flow Classification in SDN-Based
Intelligent Vehicular Networks,
ITS(22), No. 7, July 2021, pp. 4141-4150.
IEEE DOI
2107
IP networks, Data structures, Decision trees,
Intelligent transportation systems, Delays, Acceleration,
software-defined-networking (SDN)
BibRef
Lv, Z.H.[Zhi-Han],
Lou, R.R.[Ran-Ran],
Singh, A.K.[Amit Kumar],
AI Empowered Communication Systems for Intelligent Transportation
Systems,
ITS(22), No. 7, July 2021, pp. 4579-4587.
IEEE DOI
2107
Mathematical model, Neurons, Biological neural networks,
Communication systems, Control systems,
load rate
BibRef
Feng, L.[Li],
Ali, A.[Amjad],
Iqbal, M.[Muddesar],
Ali, F.[Farman],
Raza, I.[Imran],
Siddiqi, M.H.[Muhammad Hameed],
Shafiq, M.[Muhammad],
Hussain, S.A.[Syed Asad],
Dynamic Wireless Information and Power Transfer Scheme for
Nano-Empowered Vehicular Networks,
ITS(22), No. 7, July 2021, pp. 4088-4099.
IEEE DOI
2107
Optimization, Wireless communication, Wireless sensor networks,
Resource management, Sensors, Vehicle dynamics, Energy harvesting,
intelligent transportation systems
BibRef
Abbasi, M.[Mahdi],
Yaghoobikia, M.[Mina],
Rafiee, M.[Milad],
Khosravi, M.R.[Mohammad R.],
Menon, V.G.[Varun G.],
Optimal Distribution of Workloads in Cloud-Fog Architecture in
Intelligent Vehicular Networks,
ITS(22), No. 7, July 2021, pp. 4706-4715.
IEEE DOI
2107
Delays, Cloud computing, Genetic algorithms, Batteries, Servers,
Power demand, Mathematical model, Cloud, fog, genetic algorithm,
workload allocation
BibRef
Pande, S.K.[Sohan Kumar],
Panda, S.K.[Sanjaya Kumar],
Das, S.[Satyabrata],
Alazab, M.[Mamoun],
Sahoo, K.S.[Kshira Sagar],
Luhach, A.K.[Ashish Kumar],
Nayyar, A.[Anand],
A Smart Cloud Service Management Algorithm for Vehicular Clouds,
ITS(22), No. 8, August 2021, pp. 5329-5340.
IEEE DOI
2108
Task analysis, Cloud computing, Measurement, Resource management,
Quality of service, Intelligent sensors, Sensor systems, migration
BibRef
Sangaiah, A.K.[Arun Kumar],
Ramamoorthi, J.S.[Jaya Subalakshmi],
Rodrigues, J.J.P.C.[Joel J. P. C.],
Rahman, M.A.[Md. Abdur],
Muhammad, G.[Ghulam],
Alrashoud, M.[Mubarak],
LACCVoV: Linear Adaptive Congestion Control With Optimization of Data
Dissemination Model in Vehicle-to-Vehicle Communication,
ITS(22), No. 8, August 2021, pp. 5319-5328.
IEEE DOI
2108
Vehicular ad hoc networks, Data dissemination, Routing,
Optimization, Data models, Load modeling, vehicular communication
BibRef
Chaudhary, R.[Rajat],
Kumar, N.[Neeraj],
EnFlow: An Energy-Efficient Fast Flow Forwarding Scheme for
Software-Defined Networks,
ITS(22), No. 8, August 2021, pp. 5293-5309.
IEEE DOI
2108
Routing, Energy consumption, Optimization, Ear, Internet,
Quality of service, Power demand, SDN, flow routing, energy-efficiency
BibRef
Al-Hilo, A.[Ahmed],
Samir, M.[Moataz],
Assi, C.[Chadi],
Sharafeddine, S.[Sanaa],
Ebrahimi, D.[Dariush],
UAV-Assisted Content Delivery in Intelligent Transportation
Systems-Joint Trajectory Planning and Cache Management,
ITS(22), No. 8, August 2021, pp. 5155-5167.
IEEE DOI
2108
Trajectory, Unmanned aerial vehicles, Wireless communication,
Libraries, Resource management, Delays,
Vehicular Ad-hoc Networks (VANETs)
BibRef
Zhao, H.[Hang],
Li, Y.[Yongfu],
Hao, W.[Wei],
Peeta, S.[Srinivas],
Wang, Y.B.[Yi-Bing],
Evaluating the Effects of Switching Period of Communication
Topologies and Delays on Electric Connected Vehicles Stream With
Car-Following Theory,
ITS(22), No. 12, December 2021, pp. 7631-7641.
IEEE DOI
2112
Topology, Delays, Switches, Vehicle dynamics, Stability analysis,
Vehicular ad hoc networks, Electric connected vehicle, energy consumption
BibRef
Hisham, A.[Anver],
Ström, E.G.[Erik G.],
Brännström, F.[Fredrik],
Radio Resource Management for V2V Multihop Communication Considering
Adjacent Channel Interference,
ITS(22), No. 11, November 2021, pp. 7084-7101.
IEEE DOI
2112
Power control, Spread spectrum communication, Optimal scheduling,
Interchannel interference, Radio transmitters, Scheduling,
signal to interference and noise power ratio (SINR)
BibRef
Liang, J.W.[Jun-Wei],
Ma, M.[Maode],
FS-MOEA: A Novel Feature Selection Algorithm for IDSs in Vehicular
Networks,
ITS(23), No. 1, January 2022, pp. 368-382.
IEEE DOI
2201
Feature extraction, Optimization, Intrusion detection,
Ad hoc networks, Intelligent transportation systems, Sorting,
IG-AHP prioritizing
BibRef
Saluja, D.[Deepak],
Singh, R.[Rohit],
Saluja, N.[Nitin],
Kumar, S.[Suman],
Energy-Efficient Strategy for Improving Coverage and Rate Using
Hybrid Vehicular Networks,
ITS(23), No. 1, January 2022, pp. 430-443.
IEEE DOI
2201
Microwave communication, Reliability, Roads, Rayleigh channels,
Vehicular network, millimeter-wave communication,
energy efficiency
BibRef
Wang, D.[Duo],
Sipahi, R.[Rifat],
Stability of a Large-Scale Connected Vehicle Network in Ring
Configuration and With Multiple Delays,
ITS(23), No. 1, January 2022, pp. 663-667.
IEEE DOI
2201
Delays, Stability analysis, Asymptotic stability,
Mathematical model, Vehicle dynamics, Adaptation models, ring configuration
BibRef
Lu, S.[Sidi],
Shi, W.S.[Wei-Song],
The Emergence of Vehicle Computing,
Internet(26), No. 3, 2021.
IEEE DOI
2201
Survey of issues in computing and vehicles.
BibRef
Nguyen, B.L.[Bach Long],
Ngo, D.T.[Duy Trong],
Tran, N.H.[Nguyen H.],
Dao, M.N.[Minh N.],
Vu, H.L.[Hai L.],
Dynamic V2I/V2V Cooperative Scheme for Connectivity and Throughput
Enhancement,
ITS(23), No. 2, February 2022, pp. 1236-1246.
IEEE DOI
2202
Throughput, Road transportation, Vehicular ad hoc networks,
Vehicle dynamics, Australia, Analytical models, Connectivity,
vehicle-to-vehicle communications
BibRef
Dai, P.L.[Peng-Lin],
Hu, K.W.[Kai-Wen],
Wu, X.[Xiao],
Xing, H.L.[Huan-Lai],
Teng, F.[Fei],
Yu, Z.F.[Zhao-Fei],
A Probabilistic Approach for Cooperative Computation Offloading in
MEC-Assisted Vehicular Networks,
ITS(23), No. 2, February 2022, pp. 899-911.
IEEE DOI
2202
Servers, Task analysis, Computational modeling,
Delays, Vehicle dynamics, optimization
BibRef
Noor-a-Rahim, M.,
Liu, Z.L.[Zi-Long],
Lee, H.Y.[Hae-Young],
Ali, G.G.M.N.[G. G. Md. Nawaz],
Pesch, D.[Dirk],
Xiao, P.[Pei],
A Survey on Resource Allocation in Vehicular Networks,
ITS(23), No. 2, February 2022, pp. 701-721.
IEEE DOI
2202
Resource management, Wireless communication, Machine learning,
Long Term Evolution, Intelligent transportation systems,
machine learning
BibRef
Zhang, P.Y.[Pei-Ying],
Wang, C.[Chao],
Kumar, N.[Neeraj],
Liu, L.[Lei],
Space-Air-Ground Integrated Multi-Domain Network Resource
Orchestration Based on Virtual Network Architecture: A DRL Method,
ITS(23), No. 3, March 2022, pp. 2798-2808.
IEEE DOI
2203
Satellites, Resource management, Network architecture, Routing,
Artificial intelligence, Training,
deep reinforcement learning
BibRef
Lehocine, C.B.[Chouaib Bencheikh],
Ström, E.G.[Erik G.],
Brännström, F.[Fredrik],
Hybrid Combining of Directional Antennas for Periodic Broadcast V2V
Communication,
ITS(23), No. 4, April 2022, pp. 3226-3243.
IEEE DOI
2204
Directive antennas, Receiving antennas, Cams, Diversity reception,
Antenna feeds, Broadcast V2V communication, directional antennas,
periodic communication
BibRef
Gomari, S.[Syrus],
Knoth, C.[Christoph],
Antoniou, C.[Constantinos],
Prioritization-based subsampling quality assessment methodology for
mobility-related information systems,
IET-ITS(16), No. 5, 2022, pp. 602-615.
DOI Link
2204
BibRef
Marvasti, E.E.[Ehsan Emad],
Gani, S.M.O.[S M Osman],
Fallah, Y.P.[Yaser P.],
A Statistical Approach Toward Channel Modeling With Application to
Large-Scale Censored Data,
ITS(23), No. 5, May 2022, pp. 4267-4278.
IEEE DOI
2205
Vehicle-to-everything, Estimation, Channel models, Receivers,
Fading channels, Data models, Vehicular ad hoc networks,
RSS dataset
BibRef
Lin, D.[Dianchao],
Jabari, S.E.[Saif Eddin],
Pay for Intersection Priority:
A Free Market Mechanism for Connected Vehicles,
ITS(23), No. 6, June 2022, pp. 5138-5149.
IEEE DOI
2206
Instruments, Games, Economics, Delays, Discharges (electric), Tools,
Urban areas, Intersection operations, economic instruments,
side payment
BibRef
Abuelenin, S.M.[Sherif M.],
Elaraby, S.[Samar],
A Generalized Framework for Connectivity Analysis in
Vehicle-to-Vehicle Communications,
ITS(23), No. 6, June 2022, pp. 5894-5898.
IEEE DOI
2206
Mathematical model, Communication channels, Detectors,
Fading channels, Data models, Analytical models, Roads,
instantaneous connectivity
BibRef
Emami, A.[Azadeh],
Sarvi, M.[Majid],
Bagloee, S.A.[Saeed Asadi],
Network-Wide Traffic State Estimation and Rolling Horizon-Based
Signal Control Optimization in a Connected Vehicle Environment,
ITS(23), No. 6, June 2022, pp. 5840-5858.
IEEE DOI
2206
Connected vehicles, Optimization, Estimation,
Prediction algorithms, Kalman filters, Sensors,
connected transport system
BibRef
Luo, L.[Long],
Sheng, L.[Li],
Yu, H.F.[Hong-Fang],
Sun, G.[Gang],
Intersection-Based V2X Routing via Reinforcement Learning in
Vehicular Ad Hoc Networks,
ITS(23), No. 6, June 2022, pp. 5446-5459.
IEEE DOI
2206
Routing, Routing protocols, Roads, Delays, Vehicular ad hoc networks,
Reliability, Relays, VANET, intersection-based routing,
Q-learning
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
Roy, T.[Tanushree],
Tariq, A.[Amara],
Dey, S.[Satadru],
A Socio-Technical Approach for Resilient Connected Transportation
Systems in Smart Cities,
ITS(23), No. 6, June 2022, pp. 5019-5028.
IEEE DOI
2206
Transportation, Social networking (online), Mobile handsets,
Security, Communication networks, Vehicle-to-infrastructure, resilience
BibRef
Zhang, X.M.[Xin-Ming],
Pan, S.[Sheng],
Miao, Q.L.[Qing-Liang],
Adaptive Beamforming-Based Gigabit Message Dissemination for Highway
VANETs,
ITS(23), No. 7, July 2022, pp. 7666-7679.
IEEE DOI
2207
Array signal processing, Transmitters, Receivers,
Point-to-multipoint communications, Global Positioning System,
V2V
BibRef
Alnasser, A.[Aljawharah],
Sun, H.J.[Hong-Jian],
Jiang, J.[Jing],
QoS-Balancing Algorithm for Optimal Relay Selection in Heterogeneous
Vehicular Networks,
ITS(23), No. 7, July 2022, pp. 8223-8233.
IEEE DOI
2207
Quality of service, Device-to-device communication, Relays, Roads,
Routing, Vehicle-to-everything, Clustering algorithms, ITS, QoS, V2X
BibRef
Agrawal, N.[Neelima],
Bansal, A.[Ankur],
Singh, K.[Keshav],
Li, C.P.[Chih-Peng],
Performance Evaluation of RIS-Assisted UAV-Enabled Vehicular
Communication System With Multiple Non-Identical Interferers,
ITS(23), No. 7, July 2022, pp. 9883-9894.
IEEE DOI
2207
Unmanned aerial vehicles, Interference, Communication systems,
Signal to noise ratio, Codes, Wireless communication,
vehicular communication
BibRef
Pan, B.[Bin],
Wu, H.[Hao],
Success Probability Analysis of Cooperative C-V2X Communications,
ITS(23), No. 7, July 2022, pp. 7170-7183.
IEEE DOI
2207
Roads, Relays, Mathematical model, Computational modeling,
Analytical models, Stochastic processes, C-V2X, success probability
BibRef
Cheng, J.J.[Jiu-Jun],
Yuan, G.Y.[Gui-Yuan],
Zhou, M.C.[Meng-Chu],
Gao, S.[Shangce],
Liu, C.[Cong],
Jiang, C.J.[Chang-Jun],
A Fluid Mechanics-Based Model to Estimate VINET Capacity in an Urban
Scene,
ITS(23), No. 7, July 2022, pp. 8606-8614.
IEEE DOI
2207
Wireless networks, Vehicular ad hoc networks,
Wireless sensor networks, Upper bound, Mathematical model, fluid mechanics
BibRef
Lyu, F.[Feng],
Yang, P.[Peng],
Wu, H.Q.[Hua-Qing],
Zhou, C.H.[Cong-Hao],
Ren, J.[Ju],
Zhang, Y.X.[Yao-Xue],
Shen, X.M.[Xue-Min],
Service-Oriented Dynamic Resource Slicing and Optimization for
Space-Air-Ground Integrated Vehicular Networks,
ITS(23), No. 7, July 2022, pp. 7469-7483.
IEEE DOI
2207
Vehicle dynamics, Dynamic scheduling, Throughput, Dispatching,
Ultra reliable low latency communication, Satellites,
isolated service provisioning
BibRef
Zong, L.[Liang],
Wang, H.[Han],
Bai, Y.[Yong],
Luo, G.F.[Gao-Feng],
Cross-Regional Transmission Control for Satellite Network-Assisted
Vehicular Ad Hoc Networks,
ITS(23), No. 7, July 2022, pp. 9692-9701.
IEEE DOI
2207
Satellites, Delays, Heterogeneous networks,
Unmanned aerial vehicles, Spread spectrum communication,
transmission control
BibRef
Zhao, L.[Liang],
Zheng, T.[Tong],
Lin, M.W.[Ming-Wei],
Hawbani, A.[Ammar],
Shang, J.X.[Jia-Xing],
Fan, C.[Chunlong],
SPIDER: A Social Computing Inspired Predictive Routing Scheme for
Softwarized Vehicular Networks,
ITS(23), No. 7, July 2022, pp. 9466-9477.
IEEE DOI
2207
Routing, Vehicle dynamics, Social computing, Network topology,
Data communication, Social networking (online), Relays, predictive routing
BibRef
Zhao, L.[Liang],
Li, Z.H.[Zhu-Hui],
Al-Dubai, A.Y.[Ahmed Y.],
Min, G.[Geyong],
Li, J.J.[Jia-Jia],
Hawbani, A.[Ammar],
Zomaya, A.Y.[Albert Y.],
A Novel Prediction-Based Temporal Graph Routing Algorithm for
Software-Defined Vehicular Networks,
ITS(23), No. 8, August 2022, pp. 13275-13290.
IEEE DOI
2208
Routing, Prediction algorithms, Hidden Markov models,
Vehicular ad hoc networks, Computational modeling,
temporal graph
BibRef
Sheng, J.[Jie],
Cai, X.Q.[Xing-Qiang],
Li, Q.Y.[Qing-Yang],
Wu, C.[Cheng],
Ai, B.[Bo],
Wang, Y.M.[Yi-Ming],
Kadoch, M.[Michel],
Yu, P.[Peng],
Space-Air-Ground Integrated Network Development and Applications in
High-Speed Railways: A Survey,
ITS(23), No. 8, August 2022, pp. 10066-10085.
IEEE DOI
2208
Handover, Rail transportation, Predictive models,
Wireless communication, Resource management, AI
BibRef
Chen, J.Y.[Jia-Yin],
Wu, H.Q.[Hua-Qing],
Lyu, F.[Feng],
Yang, P.[Peng],
Li, Q.H.[Qi-Hao],
Shen, X.M.[Xue-Min],
Adaptive Resource Allocation for Diverse Safety Message Transmissions
in Vehicular Networks,
ITS(23), No. 8, August 2022, pp. 13482-13497.
IEEE DOI
2208
Resource management, Safety, Sensors, Wireless sensor networks,
Wireless communication, Cams, Quality of service, vehicular networks
BibRef
Lee, S.H.[Sang-Hoon],
Jung, Y.[Younghwa],
Park, Y.H.[Young-Hoon],
Kim, S.W.[Seong-Woo],
Design of V2X-Based Vehicular Contents Centric Networks for
Autonomous Driving,
ITS(23), No. 8, August 2022, pp. 13526-13537.
IEEE DOI
2208
Autonomous vehicles, Vehicle-to-everything, 3GPP,
Roads, Vehicle dynamics, Safety,
vehicular content centric networks
BibRef
Piperigkos, N.[Nikos],
Lalos, A.S.[Aris S.],
Berberidis, K.[Kostas],
Graph Laplacian Diffusion Localization of Connected and Automated
Vehicles,
ITS(23), No. 8, August 2022, pp. 12176-12190.
IEEE DOI
2208
Location awareness, Global Positioning System,
Vehicular ad hoc networks, Laplace equations, Sensors, Safety,
V2V
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
Mostafizi, A.[Alireza],
Koll, C.[Charles],
Wang, H.Z.[Hai-Zhong],
A Decentralized and Coordinated Routing Algorithm for Connected and
Autonomous Vehicles,
ITS(23), No. 8, August 2022, pp. 11505-11517.
IEEE DOI
2208
Routing, Transportation, Costs, Collaboration, Prediction algorithms,
Optimization, Vehicle dynamics, Multiagent coordination,
congested networks
BibRef
Meucci, M.[Marco],
Seminara, M.[Marco],
Nawaz, T.[Tassadaq],
Caputo, S.[Stefano],
Mucchi, L.[Lorenzo],
Catani, J.[Jacopo],
Bidirectional Vehicle-to-Vehicle Communication System Based on VLC:
Outdoor Tests and Performance Analysis,
ITS(23), No. 8, August 2022, pp. 11465-11475.
IEEE DOI
2208
Visible light communication, Safety, Motorcycles, Adaptive optics,
Standards, Signal to noise ratio, Error analysis,
bidirectional communication
BibRef
Nguyen, B.L.[Bach Long],
Ngo, D.T.[Duy Trong],
Dao, M.N.[Minh N.],
Bao, V.N.Q.[Vo Nguyen Quoc],
Vu, H.L.[Hai L.],
Scheduling and Power Control for Connectivity Enhancement in
Multi-Hop I2V/V2V Networks,
ITS(23), No. 8, August 2022, pp. 10322-10332.
IEEE DOI
2208
Spread spectrum communication, Power control, Australia,
Throughput, Servers, Interchannel interference, Delays, Connectivity,
vehicle-to-vehicle communications
BibRef
Altahrawi, M.A.[Mohammed A.],
Abdullah, N.F.[Nor Fadzilah],
Nordin, R.[Rosdiadee],
Ismail, M.[Mahamod],
Multi-Radio Access Software-Defined Vehicular Network,
ITS(23), No. 8, August 2022, pp. 10030-10048.
IEEE DOI
2208
Vehicle-to-everything, Radio access technologies, Roads, Standards,
Security, Safety, Sensors, V2X, SVDN, multi-RAT, network selection
BibRef
Wu, Y.[Yalan],
Wu, J.G.[Ji-Gang],
Chen, L.[Long],
Yan, J.Q.[Jia-Quan],
Han, Y.H.[Yin-He],
Load Balance Guaranteed Vehicle-to-Vehicle Computation Offloading for
Min-Max Fairness in VANETs,
ITS(23), No. 8, August 2022, pp. 11994-12013.
IEEE DOI
2208
Task analysis, Vehicular ad hoc networks, Delays,
Heuristic algorithms, Power control, Energy consumption,
machine learning
BibRef
Zang, J.W.[Jun-Wei],
Shikh-Bahaei, M.[Mohammad],
Full-Duplex Multiple Access Mechanism for Connected Vehicles
Operating at Different Autonomous Levels in NR eV2X VANETs,
ITS(23), No. 9, September 2022, pp. 14938-14953.
IEEE DOI
2209
Protocols, Vehicular ad hoc networks, Standards, Safety, Sensors,
Media Access Protocol, Broadcasting, NR eV2X VANETs, full duplex,
autonomous levels
BibRef
Pan, B.[Bin],
Wu, H.[Hao],
Modeling and Analysis of Multi-Relay Cooperative Communications in
C-V2X Networks,
ITS(23), No. 9, September 2022, pp. 16371-16385.
IEEE DOI
2209
Relays, Roads, Correlation, Analytical models, Rayleigh channels,
Interference, Mathematical models, C-V2X networks,
performance analysis
BibRef
Arya, S.[Sudhanshu],
Chung, Y.H.[Yeon Ho],
Novel Optical Scattering-Based V2V Communications With Experimental
Analysis,
ITS(23), No. 9, September 2022, pp. 15765-15779.
IEEE DOI
2209
Optical scattering, Optical transmitters, Optical receivers,
Nonlinear optics, Vehicular ad hoc networks, Scattering, ultraviolet
BibRef
Zhan, F.P.[Feng-Ping],
Jing, P.[Peng],
Ran, B.[Bin],
Infrastructure Allocation for Improving Sensing Accuracy and
Connectivity Probability Based on Combination Strategy in Vehicular
Networks,
ITS(23), No. 9, September 2022, pp. 15244-15255.
IEEE DOI
2209
Sensors, Roads, Resource management, Costs, Collaboration,
Intelligent sensors, Data communication,
hybrid deployment method
BibRef
Pasandideh, F.[Faezeh],
da Costa, J.P.J.[João Paulo J.],
Kunst, R.[Rafael],
Islam, N.[Nahina],
Hardjawana, W.[Wibowo],
Pignaton-de Freitas, E.[Edison],
A Review of Flying Ad Hoc Networks: Key Characteristics,
Applications, and Wireless Technologies,
RS(14), No. 18, 2022, pp. xx-yy.
DOI Link
2209
BibRef
Wang, D.W.[Da-Wei],
Wu, M.[Menghan],
He, Y.X.[Yi-Xin],
Pang, L.[Linna],
Xu, Q.[Qian],
Zhang, R.N.[Ruo-Nan],
An HAP and UAVs Collaboration Framework for Uplink Secure Rate
Maximization in NOMA-Enabled IoT Networks,
RS(14), No. 18, 2022, pp. xx-yy.
DOI Link
2209
BibRef
Li, B.B.[Bei-Bei],
Jiang, Y.K.[Yu-Kun],
Pei, Q.Q.[Qing-Qi],
Li, T.[Tao],
Liu, L.[Liang],
Lu, R.X.[Rong-Xing],
FEEL: Federated End-to-End Learning With Non-IID Data for Vehicular
Ad Hoc Networks,
ITS(23), No. 9, September 2022, pp. 16728-16740.
IEEE DOI
2209
Data models, Clustering algorithms, Vehicular ad hoc networks,
Task analysis, Deep learning, Optimization, Distributed databases,
end-to-end learning
BibRef
Dogra, R.[Roopali],
Rani, S.[Shalli],
Babbar, H.[Himanshi],
Verma, S.[Sahil],
Verma, K.[Kavita],
Rodrigues, J.J.P.C.[Joel J. P. C.],
DCGCR: Dynamic Clustering Green Communication Routing for Intelligent
Transportation Systems,
ITS(23), No. 9, September 2022, pp. 16197-16205.
IEEE DOI
2209
Routing, Wireless sensor networks, Reliability, Routing protocols,
Vehicle dynamics, Sensors, Ad hoc networks,
intelligent transport systems
BibRef
Mohapatra, P.[Parthajit],
Design and Performance Analysis of Intra-Vehicle VLC System With
Random Receiver Orientation,
ITS(23), No. 9, September 2022, pp. 16170-16184.
IEEE DOI
2209
Receivers, Light emitting diodes, Visible light communication,
Signal to noise ratio, Radio frequency, MISO communication,
MISO
BibRef
Yu, G.[Guokuan],
Wong, P.K.[Pak Kin],
Huang, W.[Wei],
Zhao, J.[Jing],
Wang, X.B.[Xian-Bo],
Yang, Z.X.[Zhi-Xin],
Distributed Adaptive Consensus Protocol for Connected Vehicle Platoon
With Heterogeneous Time-Varying Delays and Switching Topologies,
ITS(23), No. 10, October 2022, pp. 17620-17631.
IEEE DOI
2210
Topology, Delays, Switches, Linear matrix inequalities,
Connected vehicles, Vehicle dynamics, Time-varying systems,
delay-range-dependent approach
BibRef
Lehocine, C.B.[Chouaib Bencheikh],
Brännström, F.[Fredrik],
Ström, E.G.[Erik G.],
Robust Analog Beamforming for Periodic Broadcast V2V Communication,
ITS(23), No. 10, October 2022, pp. 18404-18422.
IEEE DOI
2210
Receiving antennas, Transmitting antennas, Antennas,
Array signal processing, Antenna measurements, beamforming
BibRef
Khan, A.[Ajmal],
Siddiqui, A.A.[Afsah Abid],
Ullah, F.[Farman],
Bilal, M.[Muhammad],
Piran, M.J.[Md. Jalil],
Song, H.[Houbing],
VP-CAST: Velocity and Position-Based Broadcast Suppression for VANETs,
ITS(23), No. 10, October 2022, pp. 18512-18525.
IEEE DOI
2210
Protocols, Storms, Vehicular ad hoc networks, Accidents, Automobiles,
Vehicle dynamics, Delays, Vehicular ad hoc networks, rebroadcast,
high mobility
BibRef
Pan, Q.Q.[Qian-Qian],
Wu, J.[Jun],
Nebhen, J.[Jamel],
Bashir, A.K.[Ali Kashif],
Su, Y.[Yu],
Li, J.H.[Jian-Hua],
Artificial Intelligence-Based Energy Efficient Communication System
for Intelligent Reflecting Surface-Driven VANETs,
ITS(23), No. 10, October 2022, pp. 19714-19726.
IEEE DOI
2210
Artificial intelligence, Data communication,
Low latency communication, Dedicated short range communication, VANETs
BibRef
Khan, W.U.[Wali Ullah],
Nguyen, T.N.[Tu N.],
Jameel, F.[Furqan],
Jamshed, M.A.[Muhammad Ali],
Pervaiz, H.[Haris],
Javed, M.A.[Muhammad Awais],
Jäntti, R.[Riku],
Learning-Based Resource Allocation for Backscatter-Aided Vehicular
Networks,
ITS(23), No. 10, October 2022, pp. 19676-19690.
IEEE DOI
2210
Backscatter, Resource management, Reinforcement learning,
Optimization, Wireless communication, Collaboration, resource management
BibRef
Liu, X.[Xin],
Yu, Y.F.[Ying-Feng],
Li, F.[Feng],
Durrani, T.S.[Tariq S.],
Throughput Maximization for RIS-UAV Relaying Communications,
ITS(23), No. 10, October 2022, pp. 19569-19574.
IEEE DOI
2210
Resource management, Autonomous aerial vehicles, Throughput,
Array signal processing, Cooperative communication, throughput
BibRef
He, Y.X.[Yi-Xin],
Nie, L.[Laisen],
Guo, T.[Tan],
Kaur, K.[Kuljeet],
Hassan, M.M.[Mohammad Mehedi],
Yu, K.P.[Ke-Ping],
A NOMA-Enabled Framework for Relay Deployment and Network
Optimization in Double-Layer Airborne Access VANETs,
ITS(23), No. 11, November 2022, pp. 22452-22466.
IEEE DOI
2212
NOMA, Relays, Downlink, Resource management, Optimization,
Autonomous aerial vehicles, Computer architecture,
vehicular ad hoc networks (VANETs)
BibRef
Wu, J.[Jingbang],
Lu, H.M.[Hui-Mei],
Xiang, Y.[Yong],
Wang, F.[Feng],
Li, H.[Haisheng],
SATMAC: Self-Adaptive TDMA-Based MAC Protocol for VANETs,
ITS(23), No. 11, November 2022, pp. 21712-21728.
IEEE DOI
2212
Protocols, Media Access Protocol, Safety, Delays,
Vehicular ad hoc networks, Time division multiple access, VANET
BibRef
Yao, L.[Lin],
Xu, X.Y.[Xiao-Ying],
Deng, J.[Jing],
Wu, G.[Guowei],
Li, Z.Y.[Zhao-Yang],
A Cooperative Caching Scheme for VCCN With Mobility Prediction and
Consistent Hashing,
ITS(23), No. 11, November 2022, pp. 20230-20242.
IEEE DOI
2212
Cooperative caching, Vehicular ad hoc networks, Servers, Delays,
Resource management, Prediction algorithms,
vehicular ad hoc networks (VANETs)
BibRef
Liang, X.L.[Xiao-Lin],
Li, Y.J.[Ying-Jie],
Cao, W.[Wangbin],
Zhao, S.[Shuhuan],
Liu, S.[Shuaiqi],
Zhao, X.W.[Xiong-Wen],
Power Allocation and Performance Analysis in Overlay Cognitive
Cooperative V2V Communication System With Outdated CSI,
ITS(23), No. 11, November 2022, pp. 21440-21449.
IEEE DOI
2212
Resource management, Optical character recognition software,
Channel models, Quality of service, Relays, Solid modeling,
vehicle-to-vehicle (V2V) communication
BibRef
Alsenwi, M.[Madyan],
Abolhasan, M.[Mehran],
Lipman, J.[Justin],
Intelligent and Reliable Millimeter Wave Communications for RIS-Aided
Vehicular Networks,
ITS(23), No. 11, November 2022, pp. 21582-21592.
IEEE DOI
2212
Wireless communication, Optimization, Heuristic algorithms,
Reliability, Array signal processing, Precoding, Vehicle dynamics, reliability
BibRef
Raja, A.A.[Adil Ali],
Pervaiz, H.[Haris],
Hassan, S.A.[Syed Ali],
Garg, S.[Sahil],
Hossain, M.S.[M. Shamim],
Piran, M.J.[Md. Jalil],
Coverage Analysis of mmWave and THz-Enabled Aerial and Terrestrial
Heterogeneous Networks,
ITS(23), No. 11, November 2022, pp. 22478-22491.
IEEE DOI
2212
Interference, Signal to noise ratio, Propagation losses,
Nakagami distribution, Gain, Stochastic processes,
SINR coverage probability
BibRef
Liu, Y.X.[Ya-Xuan],
Ni, Y.Y.[Yi-Yang],
Zhao, H.T.[Hai-Tao],
Zhang, H.[Hui],
Zhu, H.B.[Hong-Bo],
Cao, H.T.[Hao-Tong],
Yu, K.P.[Ke-Ping],
An Efficient Power Allocation Algorithm for Green Reconfigurable
Intelligent Surface Assisted Vehicular Network,
ITS(23), No. 12, December 2022, pp. 23736-23749.
IEEE DOI
2212
Signal to noise ratio, Resource management, Interference,
Device-to-device communication, Power system reliability, power allocation
BibRef
Liu, P.[Ping],
Wang, X.[Xingfu],
Hawbani, A.[Ammar],
Hua, B.[Bei],
Zhao, L.[Liang],
Liu, Z.[Zhi],
BETA: Beacon-Based Traffic-Aware Routing in Vehicular Ad Hoc Networks,
ITS(23), No. 12, December 2022, pp. 24206-24219.
IEEE DOI
2212
Routing, Vehicular ad hoc networks, Routing protocols,
Wireless communication, Roads, Relays, Real-time systems,
multihop communication
BibRef
Zhou, T.[Tao],
Zhang, H.[Haitong],
Ai, B.[Bo],
Liu, L.[Liu],
Weighted Score Fusion Based LSTM Model for High-Speed Railway
Propagation Scenario Identification,
ITS(23), No. 12, December 2022, pp. 23668-23679.
IEEE DOI
2212
Rail transportation, Wireless communication, Feature extraction,
Delays, Long Term Evolution, Deep learning, Current measurement, feature fusion
BibRef
Egea-Lopez, E.[Esteban],
Pavon-Mariño, P.[Pablo],
Santa, J.[Jose],
Optimal Joint Power and Rate Adaptation for Awareness and Congestion
Control in Vehicular Networks,
ITS(23), No. 12, December 2022, pp. 25033-25046.
IEEE DOI
2212
Proposals, Rayleigh channels, Vehicle dynamics, Power control,
Resource management, Heuristic algorithms, Standards,
network utility maximization
BibRef
Saluja, D.[Deepak],
Singh, R.[Rohit],
Saluja, N.[Nitin],
Kumar, S.[Suman],
Connectivity Improvement of Hybrid Millimeter Wave and Microwave
Vehicular Networks,
ITS(24), No. 2, February 2023, pp. 1456-1464.
IEEE DOI
2302
Millimeter wave communication, Radio access technologies,
Microwave communication, Roads, Rats, Analytical models, hybrid networks
BibRef
Xu, Y.F.[Yi-Fan],
Wandelt, S.[Sebastian],
Sun, X.Q.[Xiao-Qian],
IMMUNER: Integrated Multimodal Mobility Under Network Disruptions,
ITS(24), No. 2, February 2023, pp. 1480-1494.
IEEE DOI
2302
Atmospheric modeling, Rail transportation, Transportation,
Airline industry, Aircraft, Costs, Delays, column generation
BibRef
Liu, B.[Bing],
Zhou, Z.C.[Zheng-Chun],
Yang, Y.[Yang],
Adhikary, A.R.[Avik Ranjan],
Fan, P.[Pingzhi],
Constructions of Binary Signature Sets With Optimal Odd Total Squared
Correlation and Their Application to Device Activity Detection,
ITS(24), No. 2, February 2023, pp. 2084-2096.
IEEE DOI
2302
Sensors, Systematics, Signal to noise ratio, Fans, Autocorrelation,
Wireless sensor networks, Performance evaluation,
device activity detection
BibRef
Guo, J.J.[Jing-Jing],
Gao, H.M.[Hua-Min],
Liu, Z.Q.[Zhi-Quan],
Huang, F.[Feiran],
Zhang, J.W.[Jun-Wei],
Li, X.H.[Xing-Hua],
Ma, J.F.[Jian-Feng],
ICRA: An Intelligent Clustering Routing Approach for UAV Ad Hoc
Networks,
ITS(24), No. 2, February 2023, pp. 2447-2460.
IEEE DOI
2302
Routing, Task analysis, Network topology, Ad hoc networks,
Autonomous aerial vehicles, Routing protocols, Voting,
reinforcement learning
BibRef
Rani, S.[Shalli],
Babbar, H.[Himanshi],
Kaur, P.[Pardeep],
Alshehri, M.D.[Mohammad Dahman],
Shah, S.H.[Syed Hassan],
An Optimized Approach of Dynamic Target Nodes in Wireless Sensor
Network Using Bio Inspired Algorithms for Maritime Rescue,
ITS(24), No. 2, February 2023, pp. 2548-2555.
IEEE DOI
2302
Location awareness, Wireless sensor networks, Sensors,
Global Positioning System, Hidden Markov models, anchor nodes
BibRef
Ali, A.[Asad],
Aadil, F.[Farhan],
Khan, M.F.[Muhammad Fahad],
Maqsood, M.[Muazzam],
Lim, S.[Sangsoon],
Harris Hawks Optimization-Based Clustering Algorithm for Vehicular
Ad-Hoc Networks,
ITS(24), No. 6, June 2023, pp. 5822-5841.
IEEE DOI
2306
Clustering algorithms, Vehicular ad hoc networks, Metaheuristics,
Ad hoc networks, Reliability, Wireless communication, Safety,
cluster optimization
BibRef
Yang, Y.C.[Ying-Chao],
Bai, Z.Q.[Zhi-Quan],
Pang, K.[Ke],
Guo, S.S.[Shuai-Shuai],
Zhang, H.J.[Hai-Jun],
Kwak, K.S.[Kyung Sup],
Spatial-Index Modulation Based Orthogonal Time Frequency Space System
in Vehicular Networks,
ITS(24), No. 6, June 2023, pp. 6165-6177.
IEEE DOI
2306
Modulation, OFDM, Indexes, Transmitting antennas, Symbols, Reliability,
Doppler effect, SIM, OTFS, SIM-OTFS, vehicular networks, ABER, diversity,
complexity
BibRef
Taha, M.B.[Mohammad Bany],
Alrabaee, S.[Saed],
Choo, K.K.R.[Kim-Kwang Raymond],
Efficient Resource Management of Micro-Services in VANETs,
ITS(24), No. 7, July 2023, pp. 6820-6835.
IEEE DOI
2307
Cryptography, Vehicular ad hoc networks, Task analysis,
Peer-to-peer computing, Resource management, VANET
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
Zhang, G.[Guangshuo],
Lu, H.M.[Hong-Min],
Zhang, S.W.[Shi-Wei],
Wu, F.[Fulin],
Qin, Y.Z.[Yang-Zhen],
Jiang, B.[Bo],
Construction and Analysis of the EMC Evaluation Model for Vehicular
Communication Systems Based on Digital Maps,
RS(15), No. 19, 2023, pp. 4872.
DOI Link
2310
BibRef
Liang, Y.F.[Yang-Fan],
Yan, H.Y.[Hong-Yang],
Liu, Y.[Yining],
Unlinkable Signcryption Scheme for Multi-Receiver in VANETs,
ITS(24), No. 9, September 2023, pp. 10138-10154.
IEEE DOI
2310
BibRef
Lehocine, C.B.[Chouaib Bencheikh],
Ström, E.G.[Erik G.],
Brännström, F.[Fredrik],
Antenna Combiner for Periodic Broadcast V2V Communication Under
Relaxed Worst-Case Propagation,
ITS(24), No. 9, September 2023, pp. 9817-9834.
IEEE DOI
2310
BibRef
Zhou, M.[Momiao],
Liu, L.[Lei],
Sun, Y.[Yanshi],
Wang, K.[Kan],
Dong, M.[Mianxiong],
Atiquzzaman, M.[Mohammed],
Dustdar, S.[Schahram],
On Vehicular Ad-Hoc Networks With Full-Duplex Radios:
An End-to-End Delay Perspective,
ITS(24), No. 10, October 2023, pp. 10912-10922.
IEEE DOI
2310
BibRef
Wu, Y.[Yalan],
Wu, J.G.[Ji-Gang],
Yao, M.Y.[Mian-Yang],
Liu, B.S.[Bo-Sheng],
Chen, L.[Long],
Lam, S.K.[Siew Kei],
Two-Level Scheduling Algorithms for Deep Neural Network Inference in
Vehicular Networks,
ITS(24), No. 9, September 2023, pp. 9324-9343.
IEEE DOI
2310
BibRef
Doe, D.M.[Daniel Mawunyo],
Chen, D.W.[Da-Wei],
Han, K.T.[Kyung-Tae],
Wang, H.X.[Hao-Xin],
Xie, J.[Jiang],
Han, Z.[Zhu],
DSORL: Data Source Optimization With Reinforcement Learning Scheme
for Vehicular Named Data Networks,
ITS(24), No. 10, October 2023, pp. 11225-11237.
IEEE DOI
2310
BibRef
Zheng, S.[Shuo],
Lv, B.[Bojie],
Zhang, T.[Tong],
Wang, R.[Rui],
Ching, P.C.,
Joint Beamforming Design for Integrated Passive Sensing and
Communications in V2I Networks,
SPLetters(30), 2023, pp. 1312-1316.
IEEE DOI
2310
BibRef
Khan, W.U.[Wali Ullah],
Jamshed, M.A.[Muhammad Ali],
Lagunas, E.[Eva],
Chatzinotas, S.[Symeon],
Li, X.W.[Xing-Wang],
Ottersten, B.[Björn],
Energy Efficiency Optimization for Backscatter Enhanced NOMA
Cooperative V2X Communications Under Imperfect CSI,
ITS(24), No. 11, November 2023, pp. 12961-12972.
IEEE DOI
2311
BibRef
Manogaran, G.[Gunasekaran],
Gao, J.[Jiechao],
Nguyen, T.N.[Tu N],
Optimizing Resource and Service Allocations for IoT-Assisted
Intelligent Transportation Systems,
ITS(24), No. 11, November 2023, pp. 12877-12887.
IEEE DOI
2311
BibRef
Moura, D.L.L.[Douglas L. L.],
Ramos, G.S.[Geymerson S.],
Aquino, A.L.L.[Andre L. L.],
Loureiro, A.A.F.[Antonio A. F],
A Centrality Approach to Select Offloading Data Aggregation Points in
Vehicular Sensor Networks,
ITS(24), No. 11, November 2023, pp. 11639-11653.
IEEE DOI
2311
BibRef
Gupta, D.[Divya],
Rani, S.[Shalli],
Singh, A.[Aman],
Rodrigues, J.J.P.C.[Joel J. P. C.],
ICN Based Efficient Content Caching Scheme for Vehicular Networks,
ITS(24), No. 12, December 2023, pp. 15548-15556.
IEEE DOI
2312
BibRef
Abbas, Q.[Qamar],
Hassan, S.A.[Syed Ali],
Jung, H.[Haejoon],
Hossain, M.S.[M. Shamim],
On Minimizing the Age of Information in NOMA-Based Vehicular Networks
Using Markov Decision Process,
ITS(24), No. 12, December 2023, pp. 15557-15567.
IEEE DOI
2312
BibRef
Wang, X.N.[Xiao-Nan],
Chen, X.[Xilan],
Social Attributes-Based Content Delivery for Sparse Vehicular
Content-Centric Network,
ITS(24), No. 12, December 2023, pp. 14406-14414.
IEEE DOI
2312
BibRef
Dong, J.W.[Jia-Wei],
Yassine, A.[Abdulsalam],
Armitage, A.[Andy],
Hossain, M.S.[M. Shamim],
Multi-Agent Reinforcement Learning for Intelligent V2G Integration in
Future Transportation Systems,
ITS(24), No. 12, December 2023, pp. 15974-15983.
IEEE DOI
2312
BibRef
Wijesiri, N.B.A.G.P.[N.B.A. Geeth P.],
Samarasinghe, T.[Tharaka],
Haapola, J.[Jussi],
Performance Enhancement of C-V2X Mode 4 Utilizing Multiple Candidate
Single-Subframe Resources,
ITS(24), No. 12, December 2023, pp. 15328-15333.
IEEE DOI
2312
BibRef
Xia, Y.J.[Ying-Jie],
Liu, X.J.[Xue-Jiao],
Ou, J.[Jing],
Ma, O.[Oubo],
RLID-V: Reinforcement Learning-Based Information Dissemination Policy
Generation in VANETs,
ITS(24), No. 12, December 2023, pp. 14151-14161.
IEEE DOI
2312
BibRef
Dang, X.B.[Xia-Bing],
Xiang, W.[Wei],
Yuan, L.[Lei],
Yang, Y.[Yuan],
Wang, E.[Eric],
Huang, T.[Tao],
Deep Unfolding Scheme for Grant-Free Massive-Access Vehicular
Networks,
ITS(24), No. 12, December 2023, pp. 14443-14452.
IEEE DOI
2312
BibRef
del Mondo, F.[Federico],
Seriani, S.[Stefano],
Gallina, P.[Paolo],
Gregorio, A.[Anna],
Taccani, R.[Rodolfo],
Development of a Numerical Simulation Model to Support the Design of
a Ship-Satellite Communication System for Autonomous Marine
Navigation,
RS(15), No. 24, 2023, pp. 5729.
DOI Link
2401
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
Rajput, N.S.[Nitin Singh],
Singh, U.[Upendra],
Dua, A.[Amit],
Kumar, N.[Neeraj],
Rodrigues, J.J.P.C.[Joel J. P. C.],
Sisodia, S.[Sheetal],
Elhoseny, M.[Mohammed],
Lakys, Y.[Yahya],
Amalgamating Vehicular Networks With Vehicular Clouds, AI, and Big
Data for Next-Generation ITS Services,
ITS(25), No. 1, January 2024, pp. 869-883.
IEEE DOI
2402
Cloud computing, Big Data, Artificial intelligence,
Vehicular ad hoc networks, Transportation, Roads,
vehicular cloud computing
BibRef
Raval, R.[Rohit],
Mistry, E.[Ekta],
Shah, K.[Keval],
V2V and V2I Communication Using CAM Protocol in V2X Environments,
ICCVMI23(1-6)
IEEE DOI
2403
Protocols, Vehicle-to-infrastructure, Vehicular ad hoc networks,
Real-time systems, Manufacturing, Automobiles, Surges,
Cooperative Intelligent Transportation Systems (C-ITS)
BibRef
Yan, D.[Dong],
Guan, K.[Ke],
He, D.P.[Dan-Ping],
Kim, J.[Junhyeong],
Chung, H.[Heesang],
Tian, D.[Dao],
Zhong, Z.D.[Zhang-Dui],
Blockage Effects of Road Bridge on mmWave Channels for Intelligent
Autonomous Vehicles,
ITS(25), No. 3, March 2024, pp. 2908-2919.
IEEE DOI
2405
Structural panels, Millimeter wave communication, Roads, Bridges,
Antenna measurements, Rail transportation, Propagation losses, road bridge
BibRef
Mohamed, A.[Abeer],
Bai, Z.Q.[Zhi-Quan],
Pang, K.[Ke],
Zhao, J.Q.[Jin-Qiu],
Xu, H.J.[Hong-Ji],
Zhang, L.[Lei],
Ji, Y.X.[Yu-Xiong],
Kwak, K.[Kyungsup],
Spectral Clustering and Deep Reinforcement Learning-Based Dynamic
Resource Allocation in SM-MIMO Vehicular System,
ITS(25), No. 5, May 2024, pp. 3777-3792.
IEEE DOI
2405
Wireless communication, Vehicular ad hoc networks, Heuristic algorithms,
Vehicle dynamics, Clustering algorithms, deep reinforcement learning
BibRef
He, Y.X.[Yi-Xin],
Wang, D.W.[Da-Wei],
Huang, F.H.[Fang-Hui],
Zhang, R.N.[Ruo-Nan],
Min, L.T.[Ling-Tong],
Aerial-Ground Integrated Vehicular Networks:
A UAV-Vehicle Collaboration Perspective,
ITS(25), No. 6, June 2024, pp. 5154-5169.
IEEE DOI
2406
Collaboration, Vehicle-to-everything, Resource management,
Fading channels, Autonomous aerial vehicles,
sum rate maximization
BibRef
Hui, Y.L.[Yi-Long],
Hu, J.[Jie],
Cheng, N.[Nan],
Zhao, G.S.[Gao-Sheng],
Chen, R.[Rui],
Luan, T.H.[Tom H.],
Aldubaikhy, K.[Khalid],
RCFL: Redundancy-Aware Collaborative Federated Learning in Vehicular
Networks,
ITS(25), No. 6, June 2024, pp. 5539-5553.
IEEE DOI
2406
Training, Task analysis, Federated learning, Data models, Games,
Servers, Heuristic algorithms, Federated learning,
coalition game
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
Kose, A.[Abdulkadir],
Lee, H.Y.[Hae-Young],
Foh, C.H.[Chuan Heng],
Shojafar, M.[Mohammad],
Multi-Agent Context Learning Strategy for Interference-Aware Beam
Allocation in mmWave Vehicular Communications,
ITS(25), No. 7, July 2024, pp. 7477-7493.
IEEE DOI
2407
Interference, Millimeter wave communication, Array signal processing,
Switches, Vehicle-to-everything, multi-armed bandit
BibRef
Zou, Y.F.[Yi-Fei],
Zhang, Z.Y.[Zu-Yuan],
Zhang, C.W.[Cong-Wei],
Zheng, Y.W.[Yan-Wei],
Yu, D.X.[Dong-Xiao],
Yu, J.[Jiguo],
A Distributed Abstract MAC Layer for Cooperative Learning on Internet
of Vehicles,
ITS(25), No. 8, August 2024, pp. 8972-8983.
IEEE DOI
2408
Reliability, Internet of Vehicles, Delays, Wireless communication,
Reinforcement learning, Interference, Deep learning,
deep reinforcement learning
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
Lei, X.Y.[Xiao-Ying],
Xu, H.T.[Huai-Ting],
Samp-DSGD: Link Reliability Sampling Based Federated Learning for
Vehicular Networks,
ITS(25), No. 9, September 2024, pp. 12228-12238.
IEEE DOI
2409
Reliability, Numerical models, Convergence, Mathematical models,
Computational modeling, Wireless networks, Adaptation models, V2V VANETs
BibRef
Pooja,
Sood, S.K.[Sandeep Kumar],
Scientometric Analysis of Quantum Algorithms for VANET Optimization,
SMCS(54), No. 10, October 2024, pp. 6447-6457.
IEEE DOI
2410
Quantum computing, Optimization, Vehicular ad hoc networks,
Machine learning algorithms, Quantum mechanics,
vehicular ad-hoc network (VANET)
BibRef
Zhang, Y.[Yiran],
Yang, L.[Liang],
Li, X.W.[Xing-Wang],
Guo, K.[Kefeng],
Liu, H.[Hongwu],
Bian, Y.G.[You-Gang],
STARRIS-Assisted IoV NOMA Networks With Hardware Impairments and
Imperfect CSI,
ITS(25), No. 10, October 2024, pp. 13501-13510.
IEEE DOI
2410
Protocols, NOMA, Wireless communication,
Reconfigurable intelligent surfaces, Hardware, Automobiles,
simultaneously transmitting and reflecting reconfigurable intelligent surface
BibRef
Wang, J.F.[Jun-Fan],
Chen, Y.[Yi],
Ji, X.Y.[Xiao-Yue],
Dong, Z.K.[Zhe-Kang],
Gao, M.Y.[Ming-Yu],
Lai, C.S.[Chun Sing],
Metaverse Meets Intelligent Transportation System:
An Efficient and Instructional Visual Perception Framework,
ITS(25), No. 10, October 2024, pp. 14986-15001.
IEEE DOI
2410
Metaverse, Metadata, Visual perception, Optimization, Task analysis,
Adaptation models, Visualization, Adaptive learning method, metaverse
BibRef
Saraydar, S.[Sepideh],
Tabataba, F.S.[Foroogh S.],
Omidi, M.J.[Mohammad Javad],
Improving Network Performance and Coverage Using Contract-Based
Incentivized V2V Communications,
ITS(25), No. 11, November 2024, pp. 16574-16583.
IEEE DOI
2411
Relays, Signal to noise ratio, Safety, Optimization, Costs, Contracts,
Roads, V2V communication, relay vehicles, half duplex model,
contract designing
BibRef
Deng, S.H.[Shu-Hua],
Zhang, X.Y.[Xing-Yu],
Gao, X.[Xieping],
Poisoning Topology View in Software-Defined Vehicular Network: An
Empirical Study,
ITS(25), No. 11, November 2024, pp. 16805-16816.
IEEE DOI
2411
Topology, Network topology, Vehicular ad hoc networks, Toxicology,
Automobiles, Resource management, Protocols,
topology security
BibRef
Zhao, H.T.[Hai-Tao],
Sun, W.X.[Wen-Xue],
Ni, Y.Y.[Yi-Yang],
Xia, W.C.[Wen-Chao],
Gui, G.[Guan],
Zhu, C.[Chun],
Deep Deterministic Policy Gradient-Based Rate Maximization for
RIS-UAV-Assisted Vehicular Communication Networks,
ITS(25), No. 11, November 2024, pp. 15732-15744.
IEEE DOI
2411
Autonomous aerial vehicles, Reconfigurable intelligent surfaces,
Real-time systems, DRL
BibRef
Zhong, W.Z.[Wei-Zhi],
Zhang, L.[Lulu],
Jin, H.[Haowen],
Liu, X.[Xin],
Zhu, Q.[Qiuming],
He, Y.[Yi],
Ali, F.[Farman],
Lin, Z.P.[Zhi-Peng],
Mao, K.[Kai],
Durrani, T.S.[Tariq S.],
Image-Based Beam Tracking With Deep Learning for mmWave V2I
Communication Systems,
ITS(25), No. 11, November 2024, pp. 19110-19116.
IEEE DOI
2411
Millimeter wave communication, Receivers, Cameras, Training,
Convolutional neural networks, Receiving antennas, CNN
BibRef
Shu, W.N.[Wan-Neng],
Nie, S.L.[Shao-Liang],
Hu, F.J.[Feng-Jun],
AK-GPSR: An Adaptive K-Medoids-Based Greedy Perimeter Stateless
Routing Algorithm for Multi-Channel Vehicular Network Communication,
ITS(25), No. 11, November 2024, pp. 19100-19109.
IEEE DOI
2411
Clustering algorithms, Routing, Roads, Delays,
Computational modeling, Vehicular ad hoc networks,
unsupervised learning
BibRef
Wu, W.[Wufei],
Huang, H.J.[Hui-Juan],
Li, W.H.[Wen-Hao],
Liu, R.H.[Rui-Hua],
Xie, Y.[Yong],
Long, S.[Saiqin],
Real-Time Analysis and Message Priority Assignment for TSN-CAN
Gateway,
ITS(25), No. 11, November 2024, pp. 16133-16144.
IEEE DOI
2411
Logic gates, Real-time systems, Ethernet, Bandwidth, Scheduling,
Scheduling algorithms, Automobiles, In-vehicle network gateway,
high response ratio priority
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
Deng, X.R.[Xiao-Rong],
Liang, Y.P.[Yan-Ping],
Luo, D.[Dongyu],
Wang, J.F.[Jiang-Feng],
Yan, X.D.[Xue-Dong],
Duan, J.X.[Jin-Xiao],
A multi-objective optimization model for RSU deployment in
intelligent expressways based on traffic adaptability,
IET-ITS(18), No. 11, 2024, pp. 2204-2223.
DOI Link
2411
decision making, intelligent transportation systems,
mobility as a service, traffic management
BibRef
Kundu, J.[Joydeep],
Alam, S.[Sahabul],
Koner, C.[Chandan],
Piran, M.J.[Md. Jalil],
Trust-Based Dynamic Leader Selection Mechanism for Enhanced
Performance in Flying Ad-Hoc Networks (FANETs),
ITS(25), No. 12, December 2024, pp. 20616-20627.
IEEE DOI
2412
Drones, Autonomous aerial vehicles, Security, Quality of service,
Ad hoc networks, Routing, Reliability, Unmanned aerial vehicles,
leader drone
BibRef
Park, J.[Ji_Hyun],
Choi, S.[Sieun],
Kim, T.[Tae_Young],
Lee, C.[Chan_Min],
Lee, S.[Su_Kyoung],
Public Bus-Assisted Task Offloading for UAVs,
ITS(25), No. 12, December 2024, pp. 20561-20573.
IEEE DOI
2412
Task analysis, Autonomous aerial vehicles, Servers, Smart cities,
Internet of Things, Costs, Real-time systems,
successive convex approximation
BibRef
Ashraf, M.W.A.[M. Wasim Abbas],
Raza, A.[Arif],
Singh, A.R.[Arvind R.],
Rathore, R.S.[Rajkumar Singh],
Damaj, I.W.[Issam W.],
Song, H.H.[Houbing Herbert],
Intelligent Caching Based on Popular Content in Vehicular Networks:
A Deep Transfer Learning Approach,
ITS(25), No. 12, December 2024, pp. 20643-20656.
IEEE DOI
2412
Vehicle dynamics, Transfer learning, Base stations, Costs, Collaboration,
Servers, Telecommunication traffic, Content caching, content popularity
BibRef
Zhang, X.[Xiang],
Xiong, K.[Ke],
Chen, W.[Wei],
Fan, P.[Pingyi],
Ai, B.[Bo],
Letaief, K.B.[Khaled Ben],
Minimizing AoI in High-Speed Railway Mobile Networks: DQN-Based
Methods,
ITS(25), No. 12, December 2024, pp. 20137-20150.
IEEE DOI
2412
Sensors, Power control, Time division multiple access,
Job shop scheduling, Vectors, Throughput, Wireless sensor networks,
reinforcement learning
BibRef
An, H.[Hao],
Guan, K.[Ke],
Wang, X.[Xinhui],
He, D.P.[Dan-Ping],
Mathiopoulos, P.T.[P. Takis],
Yuan, R.[Rong],
Guo, W.[Wei],
Zhong, Z.[Zhangdui],
Vehicle-to-Vehicle Channel Measurements and Power Domain Modeling in
Mountainous Plateau Environments for Emergency Communications,
ITS(25), No. 12, December 2024, pp. 21060-21073.
IEEE DOI
2412
Antenna measurements, Accuracy, Power measurement,
Wireless communication, Loss measurement, Fading channels,
power domain modeling
BibRef
Zhang, X.[Xueyao],
Yang, B.[Bo],
Yu, Z.W.[Zhi-Wen],
Cao, X.[Xuelin],
Alexandropoulos, G.C.[George C.],
Zhang, Y.[Yan],
Debbah, M.[Mérouane],
Yuen, C.[Chau],
Reconfigurable Intelligent Computational Surfaces for MEC-Assisted
Autonomous Driving Networks: Design Optimization and Analysis,
ITS(26), No. 1, January 2025, pp. 1286-1303.
IEEE DOI
2501
Autonomous vehicles, Safety, Servers, Interference,
Wireless communication, Reliability, Optimization, Accidents, task offloading
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
Tselikis, C.,
Mitropoulos, S.,
Douligeris, C.,
Ladis, E.,
Georgouleas, K.,
Vangelatos, C.,
Komninos, N.,
Empirical Study of Clustering Algorithms for Wireless Ad Hoc Networks,
WSSIP09(1-6).
IEEE DOI
0906
BibRef
Chapter on Motion -- Feature-Based, Long Range, Motion and Structure Estimates, Tracking, Surveillance, Activities continues in
Cell Based, 6G, 5G, 4G, LTE .