Computer Science ›› 2023, Vol. 50 ›› Issue (1): 285-293.doi: 10.11896/jsjkx.211000164
• Computer Network • Previous Articles Next Articles
DAI Liang, WU Yibo, WANG Guiping
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[1]CHEN S,HU J,SHI Y,et al.A Vision of C-V2X:Technologies,Field Testing,and Challenges With Chinese Development[J].IEEE Internet of Things Journal,2020,7(5):3872-3881. [2]CHEN S,HU J,SHI Y,et al.Vehicle-to-Everything(v2x)Services Supported by LTE-Based Systems and 5G[J].IEEE Communications Standards Magazine,2017,1(2):70-76. [3]CHEN S,LI Q,WANG Y,et al.C-V2X equipment identification management and authentication mechanism[J].China Communications,2020,18(8):297-306. [4]SARRIGIANNIS I,CONTRERAS M,RAMANTAS K,et al.Fog-Enabled Scalable C-V2X Architecture for Distributed 5G and Beyond Applications[J].IEEE Network,2020,34(5):120-126. [5]FU S,ZHANG W,JIANG Z.A network-level connected autonomous driving evaluation platform implementing C-V2X techno-logy[J].China Communications,2021,18(6):77-88. [6]JI B,ZHANG X,MUMTAZ S,et al.Survey on the Internet of Vehicles:Network Architectures and Applications[J].IEEE Communications Standards Magazine,2020,4(1):34-41. [7]SAAD M,KHAN M,SHAH S,et al.Advancements in Vehicular Communication Technologies:C-V2X and NR-V2X Comparison[J].IEEE Communications Magazine,2021,59(8):107-113. [8]JAYAWEERA S,MANOSHA S,RAJATHEVA N,et al.Co-Existence of ITS-G5 and C-V2X at an Urban Road Intersection[C]//2021 Joint European Conference on Networks and Communications & 6G Summit(EuCNC/6G Summit).Porto:IEEE Press,2021:253-258. [9]ECKERMANN F,WIETFELD C.SDR-based Open-Source C-V2X Traffic Generator for Stress Testing Vehicular Communication[C]//2021 IEEE 93rd Vehicular Technology Conference(VTC2021-Spring).Helsinki:IEEE Press,2021:1-5. [10]PAN B,WU H.Success Probability Analysis of Cooperative C-V2X Communications[J].IEEE Transactions on Intelligent Transportation Systems,2022,23(7):7170-7183. [11]KUTILA M,PYYKONEN P,HUANG Q,et al.C-V2X Supported Automated Driving[C]//2019 IEEE International Confe-rence on Communications Workshops(ICC Workshops).Shanghai:IEEE Press,2019:1-5. [12]CHETLUR V,DHILLON H.Coverage and Rate Analysis of Downlink Cellular Vehicle-to-Everything(C-V2X) Communication[J].IEEE Transactions on Wireless Communications,2020,19(3):1738-1753. [13]BAZZI A,ZANELLA A,SARRIS I,et al.Co-channel Coexistence:Let ITS-G5 and Sidelink C-V2X Make Peace[C]//2020 IEEE MTT-S International Conference on Microwaves for Intelligent Mobility(ICMIM).Linz:IEEE Press,2020:1-4. [14]SABEEH S,WESOŁOWSKI K.C-V2X Mode 4 Resource Allocation in High Mobility Vehicle Communication[C]//2020 IEEE 31st Annual International Symposium on Personal,Indoor and Mobile Radio Communications.London:IEEE Press,2020:1-6. [15]MOLINA-MASEGOSA R,SEPULCRE M,GOZALVEZ J.Geo-Based Scheduling for C-V2X Networks[J].IEEE Transactions on Vehicular Technology,2019,68(9):8397-8407. [16]BAZZI A,CAMPOLO C,MOLINAROA,et al.On WirelessBlind Spots in the C-V2X Sidelink[J].IEEE Transactions on Vehicular Technology,2020,69(8):9239-9243. [17]CHEN Q,JIANG H,YU G.Service Oriented Resource Management in Spatial Reuse-Based C-V2X Networks[J].IEEE Wireless Communications Letters,2020,9(1):91-94. [18]SCHWIND A,HOFMANN W,BUDDAPPAGARI S,et al.Bi-static Reflectivity Patterns of Vulnerable Road Users in the C-V2X Frequency Range[C]//2020 IEEE Radar Conference(RadarConf20).Florence:IEEE Press,2020:1-6. [19]GILL K,HEATH K N,CHUKE S,et al.Bumblebee-Inspired C-V2X Dynamic Spectrum Access Testbed Using Open Air Interface[C]//2020 IEEE 91st Vehicular Technology Conference(VTC2020-Spring).Antwerp:IEEE Press,2020:1-5. [20]SEHLA K,NGUYEN T,PUJOLLE G,et al.A New Clustering-based Radio Resource Allocation Scheme for C-V2X[C]//2021 Wireless Days(WD).Paris:IEEE Press,2021:1-8. [21]HE X,LV J,ZHAO J,etal.Design and Analysis of a Short-Term Sensing-Based Resource Selection Scheme for C-V2X Networks[J].IEEE Internet of Things Journal,2020,7(11):11209-11222. [22]WIJESIRI G P,HAAPOLA J,SAMARASINGHE T.A Dis-crete-Time Markov Chain Based Comparison of the MAC Layer Performance of C-V2X Mode 4 and IEEE 802.11p[J].IEEE Transactions on Communications,2021,69(4):2505-2517. [23]YANG M X,YU R D,LIU Y H,et al.Traffic Statistics and Analysis of Transmitter in C-V2X Communication[C]//2021 IEEE 93rd Vehicular Technology Conference(VTC2021-Spring).Helsinki:IEEE Press,2021:1-5. [24]POLI F,DENIS B,MANNONI V,et al.Evaluation of C-V2X Sidelink for Cooperative Lane Merging in a Cross-Border Highway Scenario[C]//2021 IEEE 93rd Vehicular Technology Conference(VTC2021-Spring).Helsinki:IEEE Press,2021:1-5. [25]HUANG Z,LI Y,CHEN R,et al.Clustering Analysis of Multipath Components in Urban Road Scenario for C-V2X Propagation Channels[C]//2018 12th International Symposium on Antennas,Propagation and EM Theory(ISAPE).Hangzhou:IEEE Press,2018:1-3. [26]ZHANG M,DOU Y,CHONG P,et al.Fuzzy Logic-Based Resource Allocation Algorithm for V2X Communications in 5G Cellular Networks[J].IEEE Journal on Selected Areas in Communications,2021,39(8):2501-2513. [27]IZYDORCZYK T,TAVARES F,BERARDINELLI G,et al.Performance Evaluation of Multi-Antenna Receivers for Vehicular Communications in Live LTE Networks[C]//2019 IEEE 89th Vehicular Technology Conference(VTC2019-Spring).Kuala Lumpur:IEEE Press,2019:1-6. [28]GIBELLINI L,MERANI M.Out-of-Coverage Multi-Hop Road Safety Message Distribution via LTE-A Cellular V2V(C-V2V)[C]//2018 IEEE 88th Vehicular Technology Conference(VTC-Fall).Chicago:IEEE Press,2018:1-6. [29]LI Y,MOSAVAT-JAHROMI H,CAI L,et al.GNC-MAC:Grouping and Network Coding-assisted MAC for Reliable Group-casting in V2X[C]//2020 IEEE 92nd Vehicular Technology Conference(VTC2020-Fall).Victoria:IEEE Press,2020:1-6. [30]GONZALEZ-MARTÍN M,SEPULCRE M,MOLINA-MASEGOSA R,et al.Analytical Models of the Performance of C-V2X Mode 4 Vehicular Communications[J].IEEE Transactions on Vehicular Technology,2019,68(2):1155-1166. [31]BUTE M,FAN P,LIU G,et al.A Collaborative Task Offloading Scheme in Vehicular Edge Computing[C]//2021 IEEE 93rd Vehicular Technology Conference(VTC2021-Spring).Helsinki:IEEE Press,2021:1-5. [32]HAN X,LI X,LUO C,et al.Incentive Mechanism with the Caching Strategy for Content Sharing in Vehicular Networks[C]//2019 IEEE Globecom Workshops(GC Wkshps).Waikoloa:IEEE Press,2019:1-6. [33]WEN X,CHEN J,HU Z,et al.A p-Opportunistic Channel Access Scheme for Interference Mitigation Between V2V and V2I Communications[J].IEEE Internet of Things Journal,2020,7(5):3706-3718. [34]WANG Z,ZHEN J,WU Y.Analysis of the Downlink Connectivity Probability within the Two-Hop Coverage of an RSU in VANET[C]//2017 IEEE 85th Vehicular Technology Confe-rence(VTC Spring).Sydney:IEEE Press,2017:1-5. [35]LI C X,ZHEN A R,ZENG F T,et al.Access and connectivity probability for V2X communication networks[C]//2017 13th IEEE International Conference on Electronic Measurement & Instruments(ICEMI).Yangzhou:IEEE Press,2017:260-264. [36]ZHAO J,CHEN Y,GONG Y.Study of Connectivity Probability of Vehicle-to-Vehicle and Vehicle-to-Infrastructure Communication Systems[C]//2016 IEEE 83rd Vehicular Technology Conference(VTC Spring).Nanjing:IEEE Press,2016:1-4. [37]WANG Z,ZHENG J,WU Y,et al.A centrality-based RSU deployment approach for vehicular ad hoc networks[C]//2017 IEEE International Conference on Communications(ICC).Paris:IEEE Press,2017:1-5. [38]CHENG H,FEI X,BOUKERCHE A,et al.Hotspot discovery algorithms in coverage selection model over VANETs[C]//2014 IEEE Global Communications Conference.Austin:IEEE Press,2014:143-148. [39]LLOYD S.Least squares quantization in PCM[J].IEEE Transa-ctions on Information Theory.IEEE Press,1982,28(2):129-137. [40]FREY B,DUECK D.Clustering by passing messages between data points[J].Science,2007,315:972-976. [41]JIANG P,LI P,ZHANG T,et al.Roadside Units Placement for Traffic Flows Coverage Requirement in Vehicular Networks[C]//2018 IEEE International Conference on Smart Cloud(SmartCloud).New York:IEEE Press,2018:145-152. [42]ZHENG H,CHANG W,WU J.Coverage and distinguishability requirements for Traffic Flow Monitoring Systems[C]//2016 IEEE/ACM 24th International Symposium on Quality of Service(IWQoS).Beijing:IEEE Press,2016:1-10 [43]ZHU J Y,HUANG C H,FANG X Y.RSU deployment planning based on approximation algorithm in urban VANET[J].Journal on Communications,2018,39(1):78-89. [44]PATIL P,GOKHALE A.Voronoi-based placement of road-side units to improve dynamic resource management in Vehicular Ad Hoc Networks[C]//2013 International Conference on Collaboration Technologies and Systems(CTS).San Diego:IEEE Press,2013:389-396. [45]PATIL P,GOKHALE A.Maximizing Vehicular Network Con-nectivity through an Effective Placement of Road Side Units Using Voronoi Diagrams[C]//2012 IEEE 13th International Conference on Mobile Data Management.Bengaluru:IEEE Press,2012:274-275. [46]KIM D,VELASCO Y,WANG W,et al.A New Comprehensive RSU Installation Strategy for Cost-Efficient VANET Deployment[J].IEEE Transactions on Vehicular Technology,2017,66(5):4200-4211. [47]LIN C,DENG D.Optimal Two-Lane Placement for Hybrid VANET-Sensor Networks[J].IEEE Transactions on Industrial Electronics,2015,62(12):7883-7891. [48]LIN C,DENG D.Optimal Two-Lane Placement for Hybrid VANET-Sensor Networks[J].IEEE Transactions on Industrial Electronics,2015,62(12):7883-7891. [49]TAO J,ZHU L,WANG X,et al.RSU deployment scheme with power control for highway message propagation in VANETs[C]//2014 IEEE Global Communications Conference.Austin:IEEE Press,2014:169-174. [50]KANG B,JUNG S,BAHK S.Sensing-Based Power Adaptation for Cellular V2X Mode 4[C]//2018 IEEE International Symposium on Dynamic Spectrum Access Networks(DySPAN).Seoul:IEEE Press,2018:1-4. [51]SAIFUDDIN M,ZAMAN M,TOGHI B,et al.PerformanceAnalysis of Cellular-V2X with Adaptive & Selective Power Control[C]//2020 IEEE 3rd Connected and Automated Vehicles Symposium(CAVS).Victoria:IEEE Press,2020:1-7. [52]WEN Q,HU B.Joint Optimal Relay Selection and Power Control for Reliable Broadcast Communication in Platoon[C]//2020 IEEE 92nd Vehicular Technology Conference(VTC2020-Fall).Victoria:IEEE Press,2020:1-6. [53]SIAL M,DENG Y,AHMED J,et al.Stochastic Geometry Modeling of Cellular V2X Communication Over Shared Channels[J].IEEE Transactions on Vehicular Technology,2019,68(12):11873-11887. [54]CHETLUR V,DHILLON H.Coverage Analysis of a Vehicular Network Modeled as Cox Process Driven by Poisson Line Process[J].IEEE Transactions on Wireless Communications,2018,17(7):4401-4416. [55]CHETLUR V,DHILLON H.Coverage and Rate Analysis ofDownlink Cellular Vehicle-to-Everything(C-V2X) Communication[J].IEEE Transactions on Wireless Communications,2020,19(3):1738-1753. [56]CHETLUR V,DHILLON H S.Success Probability and Area Spectral Efficiency of a VANET Modeled as a Cox Process[J].IEEE Wireless Communications Letters,2018,7(5):856-859. [57]CHO Y,HUANG K,CHAE C.V2X Downlink Coverage Analysis with a Realistic Urban Vehicular Model[C]//2018 IEEE Globecom Workshops(GC Wkshps).Abu Dhabi:IEEE Press,2018:1-6. [58]CHOI C,BACCELLI F.An Analytical Framework for Coverage in Cellular Networks Leveraging Vehicles[J].IEEE Transactions on Communications,2018,66(10):4950-4964. [59]AMMAR H A,AJAMI A,ARTAIL H.A Poisson Line Process-Based Framework for Determining the Needed RSU Density and Relaying Hops in Vehicular Networks[J].IEEE Transactions on Wireless Communications,2020,19(10):6643-6659. [60]XIANG C C,LI Y Y,FENG L,et al.Near-optimal Vehicular Crowdsensing Task Allocation Empowered by Deep Reinforcement Learning[J].Chinese Journal of Computers,2022,45(5):918-934. [61]XIANG C C,LI Y Y,ZHOU Y L,et al.A Comparative Approach to Resurrecting the Market of MOD Vehicular Crowdsensing[C]//IEEE International Conference on Compu-ter Communications.2022:1-10. [62]HU J,CHEN S,ZHAO L,et al.Link Level Performance Comparison between LTE V2X and DSRC[J].Journal of Communications and Information Networks,2017,2(2):101-112. [63]XIANG C C,ZHOU Y L,DAI H P,et al.Reusing Delivery Drones for Urban Crowdsensing[J].IEEE Transactions on Mobile Computing.doi:10.1109/TMC.2021.3127212. [64]FAN X C,XIANG C C,CHEN C,et al.BuildSenSys:Reusing Building Sensing Data for Traffic Prediction With Cross-Domain Learning[J].IEEE Transactions on Mobile Computing,2021,20(6):2154-2171. [65]CHEN S,LIANG Y,SUN S,et al.Vision,Requirements,and Technology Trend of 6G:How to Tackle the Challenges of System Coverage,Capacity,User Data-Rate and Movement Speed[J].IEEE Wireless Communications,2020,27(2):218-228. |
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