Journal on Communications ›› 2019, Vol. 40 ›› Issue (4): 179-194.doi: 10.11959/j.issn.1000-436x.2019075
• Comprehensive Review • Previous Articles Next Articles
Wenjuan SHAO1,2,Qingguo SHEN1,3()
Revised:
2019-02-14
Online:
2019-04-25
Published:
2019-05-05
Supported by:
CLC Number:
Wenjuan SHAO,Qingguo SHEN. Survey of software defined D2D and V2X communication[J]. Journal on Communications, 2019, 40(4): 179-194.
[1] | SUN S H , HU J L , PENG Y ,et al. Support for vehicle-to-everything services based on LTE[J]. IEEE Wireless Communications, 2016,23(3): 4-8. |
[2] | ANSARI R I , CHRYSOSTOMOU C , HASSAN S A ,et al. 5G D2D networks:techniques,challenges,and future prospects[J]. IEEE Systems Journal, 2018,12(4): 3970-3984. |
[3] | BAZZI A , MASINI B M , ZANELLA A ,et al. Beaconing from connected vehicles:IEEE 802.11p vs.LTE-V2V[C]// IEEE International Symposium on Personal,Indoor,and Mobile Radio Communications. 2016: 1-6. |
[4] | MUSTAFA H A , IMRAN M A , SHAKIR M Z ,et al. Separation framework:an enabler for cooperative and D2D communication for future 5G networks[J]. IEEE Communications Surveys & Tutorials, 2016,18(1): 419-445. |
[5] | TRIVISONNO R , GUERZONI R , VAISHNAVI I ,et al. SDN-based 5G mobile networks:architecture,functions,procedures and backward compatibility[J]. Transactions on Emerging Telecommunications Technologies, 2015,26(1): 82-92. |
[6] | LIYANAGE M , GURTOV A , YLIANTTILA M . Software defined mobile networks -SDMN:beyond LTE network architecture[M]. New Jersey: Wiley PublishingPress, 2015. |
[7] | SUN S , KADOCH M , GONG L ,et al. Integrating network function virtualization with SDR and SDN for 4G/5G networks[J]. IEEE Network, 2015,29(3): 54-59. |
[8] | NGO T H , KIM Y . A D2D communication architecture under full control using SDN[J]. Ksii Transactions on Internet &Information Systems, 2016,10(8): 3435-3454. |
[9] | ORISINO A , ARANITI G , WANG L ,et al. Enhanced C-RAN architecture supporting SDN and NFV functionalities for D2D communications[C]// 19th International Conference on Distributed Computer and Communication Networks:Control,Computation,Communications. 2016. |
[10] | MENESES F , GUIMARAES C , MAGALHAES T ,et al. Deviceless communications:cloud-based communications for heterogeneous networks[J]. Wireless Personal Communications, 2018(2): 1-22. |
[11] | ABOLHASAN M , LIPMAN J , NI W ,et al. Software-defined wireless networking:centralized,distributed,or hybrid?[J]. IEEE Network, 2015,29(4): 32-38. |
[12] | OZTOPRAK K , . mCSDN:A software defined network based content delivery system with D2D contribution[C]// International Conference on Natural Computation,Fuzzy Systems and Knowledge Discovery. 2016: 2053-2057. |
[13] | USMAN M , GEBREMARIAM A A , GRANELLI F ,et al. Software-defined architecture for mobile cloud in device-to-device communication[C]// International Workshop on Computer Aided Modelling and Design of Communication Links and Networks. 2016: 75-79. |
[14] | USMAN M , GEBREMARIAM A A , RAZA U ,et al. A software-defined device-to-device communication architecture for public safety applications in 5G networks[J]. IEEE Access, 2015(3): 1649-1654. |
[15] | WANG R , YAN J , WU D ,et al. Knowledge-centric edge computing based on virtualized D2D communication systems[J]. IEEE Communications Magazine, 2018,56(5): 32-38. |
[16] | GUERRERO-IBANEZ J A , ZEADALLY S , CONTRERASCASTILLO J . Integration challenges of intelligent transportation systems with connected vehicle,cloud computing,and internet of things technologies[J]. IEEE Wireless Communications, 2015,22(6): 122-128. |
[17] | DANIEL A , PAUL A , AHMAD A ,et al. Cooperative intelligence of vehicles for intelligent transportation systems (ITS)[J]. Wireless Personal Communications, 2016,87(2): 461-484. |
[18] | NGUYEN T V , SHAILESH P , SUDHIR B , KAPIL G ,et al. A comparison of cellular vehicle-to-everything and dedicated short range communication[C]// Vehicular Networking Conference. 2017: 101-108. |
[19] | QI W J , SONG Q Y , WANG X J ,et al. SDN-enabled social-aware clustering in 5G-VANET systems[J]. IEEE Access, 2018(6): 28213-28224. |
[20] | DUAN X , WANG X , LIU Y ,et al. SDN enabled dual cluster head selection and adaptive clustering in 5G-VANET[C]// Vehicular Technology Conference. 2017: 1-5. |
[21] | DUAN X , LIU Y , WANG X . SDN Enabled 5G-VANET:adaptive vehicle clustering and beamformed transmission for aggregated traffic[J]. IEEE Communications Magazine, 2017,55(7): 120-127. |
[22] | HUANG W , DING L , MENG D ,et al. QoE-based resource allocation for heterogeneous multi-radio communication in software-defined vehicle networks[J]. IEEE Access, 2018,6(99): 3387-3399. |
[23] | CORDESCHI N , AMENDOLA D , BACCARELLI E . Reliable adaptive resource management for cognitive cloud vehicular networks[J]. IEEE Transactions Vehicular Technology, 2015,64(6): 2528-2537. |
[24] | DONG B H , WU W G , YANG Z W ,et al. Software defined networking based on demand routing protocol in vehicle Ad-Hoc networks[J]. |
[25] | SOUA R , KALOGEITON E , MANZO G ,et al. SDN coordination for CCN and FC content dissemination VANETs[C]// Ad Hoc Networks. 2017: 221-233. |
[26] | HUAG C M , CHIANG M S , DAO D T ,et al. V2V data offloading for cellular network based on the software defined network (SDN) inside mobile edge computing (MEC) architecture[J]. IEEE Access, 2018(6): 17741-17755. |
[27] | BARON B , SPATHIS P , RIVANO H ,et al. Software-defined vehicular backhaul[C]// IEEE Wireless Days. 2014: 1-6. |
[28] | MAIO A D , SOUA R , PALATTELLA M R ,et al. A centralized approach for setting floating content parameters in VANETs[C]// IEEE Consumer Communications & Networking Conference. 2017: 712-715. |
[29] | AZIZIAN M , CHERKAOUI S , HAFID A S . Vehicle software updates distribution with SDN and cloud computing[J]. IEEE Communications Magazine, 2017,55(8): 74-79. |
[30] | HUSSEIN A , ELHAJJ I H , CHEHAB A ,et al. SDN VANETs in 5G:an architecture for resilient security services[C]// 2017 Fourth International Conference on Software Defined Systems. 2017: 67-74. |
[31] | DI M A , PALATTELLA M R , SOUA R ,et al. Enabling SDN in VANETs:what is the impact on security?[J]. Sensors, 2016,16(12): 2077-2101. |
[32] | ZHANG D , YU F R , WEI Z ,et al. Software-defined vehicular ad hoc networks with trust management[C]// The 6th ACM Symposium on Development and Analysis of Intelligent Vehicular Networks and Applications. 2016: 41-49. |
[33] | FODOR G , DAHLMAN E , MIDH G ,et al. Design aspects of network assisted device-to-device communications[J]. Communications Magazine, 2012,50(3): 170-177. |
[34] | PU L , CHEN X , XU J ,et al. D2D fogging:an energy-efficient and incentive-aware task offloading framework via network-assisted D2D collaboration[J]. IEEE Journal on Selected Areas in Communications, 2016,34(12): 3887-3901. |
[35] | PENTIKOUSIS K , WANG Y , HU W . Mobileflow:toward software-defined mobile networks[J]. IEEE Communications Magazine, 2013,51(7): 44-53. |
[36] | 钱志鸿, 王雪 . 面向5G通信网的D2D技术综述[J]. 通信学报, 2016,37(7): 1-14. |
QIAN Z H , WANG X . Reviews of D2D technology for 5G communication networks[J]. Journal on Communications, 2016,37(7): 1-14. | |
[37] | KITADA S , HIRAKAWA G , SATO G ,et al. DTN based MANET for disaster information transport by smart devices[C]// International Conference on Network-Based Information Systems. 2015: 26-31. |
[38] | WANG K , LI H , YU F R ,et al. Virtual resource allocation in software-defined information-centric cellular networks with device-to-device communications and imperfect CSI[J]. IEEE Transactions on Vehicular Technology, 2016,65(12): 10011-10021. |
[39] | YU H C , QUER G , RAO R R . Wireless SDN mobile ad hoc network:From theory to practice[C]// 2017 IEEE International Conference on Communications. 2017: 1-7. |
[40] | CASONI M , GRAZIA C A , KLAPEZ M . An SDN and CPS based opportunistic upload splitting for mobile users[C]// International Internet of Things Summit. 2015: 67-76. |
[41] | LABRAOUI M , BOC M M , FLADENMULLER A . Opportunistic SDN-controlled wireless mesh network for mobile traffic offloading[C]// International Conference on Selected Topics in Mobile and Wireless Networking. 2017: 1-7. |
[42] | LIU Y C , CHEN C , CHAKABOTY S . A software defined network architecture for geobroadcast in VANETs[C]// 2015 IEEE International Conference on Communications. 2015: 6559-6564. |
[43] | HUANG X , KANG J , YU R ,et al. A hierarchical pseudonyms management approach for software-defined vehicular networks[C]// Vehicular Technology Conference. 2016: 1-5. |
[44] | WANG X , WANG C , ZHANG J ,et al. Improved rule installation for real-time query service in software-defined internet of vehicles[J]. IEEE Transactions on Intelligent Transportation Systems, 2017,18(2): 225-235. |
[45] | LI H , DONG M , OTA K . Control plane optimization in software-defined vehicular Ad Hoc networks[J]. IEEE Transactions on Vehicular Technology, 2016,65(10): 7895-7904. |
[46] | KAZMI A , KHAN M A , AKRAM M U . DeVANET:decentralized software-defined VANET architecture[C]// 2016 IEEE International Conference on Cloud Engineering Workshop. 2016: 42-47. |
[47] | CHAHAL M , HARIT S . Towards software-defined vehicular communication:architecture and use cases[C]// International Conference on Computing,Communication and Automation. 2017: 534-538. |
[48] | TANG H , DING Z , LEVY B C . Enabling D2D communications through neighbor discovery in LTE cellular networks[J]. IEEE Transactions on Signal Processing, 2014,62(19): 5157-5170. |
[49] | ZOU K J , WANG M , YANG K W ,et al. Proximity discovery for device-to-device communications over a cellular network[J]. IEEE Communications Magazine, 2014,52(6): 98-107. |
[50] | CHOI K W , HAN Z . Device-to-device discovery for proximity-based service in LTE-advanced system[J]. IEEE Journal on Selected Areas in Communications, 2015,33(1): 55-66. |
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