Computer Science ›› 2021, Vol. 48 ›› Issue (11): 334-344.doi: 10.11896/jsjkx.210400182
• Computer Network • Previous Articles Next Articles
YANG Zhang-lin, XIE Jun, ZHANG Geng-qiang
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[1]TAREQUE M H,HOSSAIN M S,ATIQUZZAMAN M.On theRouting in Flying Ad hoc Networks[C]//Proceedings of the 2015 Federated Conference on Computer Science and Information Systems.Lodz:IEEE Press,2015:1-9. [2]DU Y H,XING L N,CAI Z Q.Survey on intelligent scheduling technologies for unmanned flying craft clusters[J].Acta Automatica Sinica,2020,46(2):222-241. [3]WANG J,JIANG C,HAN Z,et al.Taking Drones To The Next Level Cooperative Distributed Unmanned-Aerial-Vehicular Networks for Small and Mini Drones[J].IEEE Vehicular Technology Magazine,2017,12(3):73-82. [4]LAKEW D S,SA'AD U,DAO N,et al.Routing in Flying AdHoc Networks:A Comprehensive Survey[J].IEEE Communications Surveys & Tutorials,2020,22(2):1071-1120. [5]KIM S,KWAK J H,OH B,et al.An Optimal Routing Algo-rithm for Unmanned Aerial Vehicles[J].Sensors,2021,21(4):15-22. [6]LI B,FEI Z S,ZHANG Y.UAV Communications for 5G andBeyond:Recent Advances and Future Trends[J].IEEE Internet of Things Journal,2019,6(2):2241-2263. [7]BEKMEZCI I,SAHINGOZ O K,TEMEL S.Flying Ad-HocNetworks (FANETs):A Survey[J].Ad Hoc Networks,2013,11(3):1254-1270. [8]YOU W J,DONG C,WU Q H.Survey of Layered Architecture in Large-scale FANETs[J].Computer Science,2020,47 (9):226-231. [9]ZAFAR W,KHAN B M.Flying Ad-Hoc Networks:Technological and Social Implications[J].IEEE Technology and Society Magazine,2016,35(2):67-74. [10]BOUACHIR O,ABRASSART A,GARCIA F,et al.A mobility model for UAV ad hoc network [C]//International Conference on Unmanned Aircraft Systems.Orlando:IEEE Press,2014:383-388. [11]AGRAWAL J,KAPOOR M.A comparative study on geograp-hic-based routing algorithms for flying ad-hoc networks[J].Concurrency and Computation-Practice & Experience,2020,33(16):53-62. [12]NAWAZ H,MANSOOR H,LAGHAR I,et al.UAV Communication Networks Issues:A Review[J].Archives of Computational Methods in Engineering,2020,28(3):1349-1369. [13]LI J,ZHOU Y,LAMONT L.Communication architectures and protocols for networking unmanned aerial vehicles [C]//2013 IEEE Globecom Workshops (GC Wkshps).2013:1415-1420. [14]SAHINGOZ O K.Networking Models in Flying Ad-Hoc Networks (FANETs):Concepts and Challenges[J].Journal of Intelligent & Robotic Systems,2014,74(1/2):513-527. [15]YADAV K,NAIN A,MAAKAR S.Routing Protocols inFANET:Survey[J].National Conference on Innovative Trends in Computer Science Engineering,2015,96(13):7-12. [16]GUPTA L,JAIN R,VASZKUN G.Survey of Important Issues in UAV Communication Networks[J].IEEE Communications Surveys & Tutorials,2016,18(2):1123-1152. [17]FAN X,CAI W,LIN J.A survey of routing protocols for highly dynamic mobile ad hoc networks [C]//2017 IEEE 17th International Conference on Communication Technology (ICCT).2017:1412-1417. [18]KHAN M A,SAFI A,QURESHI I M,et al.Flying ad-hoc networks (FANETs):a review of communication architectures,and routing protocols[C]//2017 First International Conference on Latest trends in Electrical Engineering and Computing Techno-logies.Karachi:IEEE Press,2017:1-9. [19]OUBBATI O S,LAKAS A,ZHOU F,et al.A survey on position-based routing protocols for Flying Ad hoc Networks (FANETs)[J].Vehicular Communications,2017,10(3):29-56. [20]ARAFAT M Y,MOH S.A Survey on Cluster-Based Routing Protocols for Unmanned Aerial Vehicle Networks[J].IEEE Access,2018,7(1):498-516. [21]BUJARI A,PALAZZI C E,RONZANI D.A Comparison ofStateless Position-based Packet Routing Algorithms for FANETs[J].IEEE Transactions on Mobile Computing,2018,17(11):2468-2482. [22]JIANG J,HAN G.Routing Protocols for Unmanned Aerial Vehicles[J].IEEE Communications Magazine,2018,56(1):58-63. [23]ARAFAT M Y,MOH S.Routing Protocols for UnmannedAerial Vehicle Networks:A Survey[J].IEEE Access,2019,7(3):99694-99720. [24]MALHOTRA A,KAUR S.A comprehensive review on recent advancements in routing protocols for flying ad hoc networks[J].Transactions on Emerging Telecommunications Technologies,2019,10(1):36-59. [25]OUBBATI O S,ATIQUZZAMAN M,LORENZ P,et al.Routing in Flying Ad Hoc Networks:Survey,Constraints,and Future Challenge Perspectives[J].IEEE Access,2019,7(99):81057-81105. [26]KHAN M F,YAU K L A,NOOR R M,et al.Routing Schemes in FANETs:A Survey[J].Sensors (Basel,Switzerland),2020,20(1):38-71. [27]WANG S,ZHUANG Z W,WANG J X,et al.Research on the Scheme and Performance of Anti-jamming ad hoc Networks Routing Using Directional Beams[J].Acta Automatica Sinica,2007,33(7):775-777. [28]TEMEL S,BEKMEZCI I.LODMAC:Location oriented direc-tional MAC protocol for FANETs[J].Computer Networks,2015,83(4):76-84. [29]WANG Y,ZHANG T,MAO S,et al.Directional neighbor discovery in mmWave wireless networks[J].Digital Communications and Networks,2021,7(1):1-15. [30]YANG B,TALEB T,SHEN Y L,et al.Performance,Fairness,and Tradeoff in UAV Swarm Underlaid mmWave Cellular Networks With Directional Antennas[J].IEEE Transactions on Wireless Communications,2021,20(4):2383-2397. [31]GOSSAIN H,JOSHI T,CORDEIRO C,et al.DRP:An Efficient Directional Routing Protocol for Mobile Ad Hoc Networks[J].IEEE Transactions on Parallel & Distributed Systems,2006,83(4):76-84. [32]AL-KHATIB A A,HASSAN R.Performance Evaluation ofAODV,DSDV,and DSR Routing Protocols in MANET Using NS-2 Simulator[C]//Irict 2017.Cham:Springer,2017:276-284. [33]CHOUDHURY R R,VAIDYA N H.Performance of ad hocrouting using directional antennas[J].Ad Hoc Networks,2005,3(2):157-173. [34]TU Y,ZHANG Y,ZHANG H.A novel MAC protocol for wireless Ad hoc networks with directional antennas [C]//2013 15th IEEE International Conference on Communication Technology (ICCT).Wuhan:IEEE Press,2013:494-499. [35]GANKHUYAG G,SHRESTHA A P,YOO S J.Robust and Reliable Predictive Routing Strategy for Flying Ad-Hoc Networks[J].IEEE Access,2017,5(5):643-654. [36]PERKINS C E,BELDING-ROYER E M.Ad-hoc on-demanddistance vector routing[C]//Workshop on Mobile Computing Systems & Applications.New Orleans:IEEE Press,2002:90-100. [37]NOGUCHI T,KOBAYASHI T.Adaptive Location-Aware Routing with Directional Antennas in Mobile AdHoc Networks[J].IEEJ Transactions on Electronics Information and Systems,2017,137(10):1310-1319. [38]SHIH T F,YEN H C.Location-aware routing protocol with dynamic adaptation of request zone for mobile ad hoc networks[J].Wireless Networks,2008,14(3):321-333. [39]GAJUREL S,MALAKOOTI B,WANG L.DA-MLAR-ODTP:Directional Antenna Multipath Location Aided Routing with On Demand Transmission Power [C]//International Symposium on Wireless Pervasive Computing.San Juan:IEEE Press,2017:71-76. [40]YUNG B,KONITIN H.Location-Aided Routing (LAR) in mobile ad hoc networks[J].Wireless Networks,2000,6(4):66-75. [41]JAYASREE G,INDULEKHA K P,MALARKODI B.Direc-tional Antenna Based Efficient Location Aware Routing in Mobile Adhoc Network[J].ICTACT Journal on Communication Technology,2018,9(2):1765-1775. [42]MATSUDA T,KANEKO M,HIRAGURI T,et al.Adaptive Direction Control for UAV Full-Duplex Relay Networks Using Multiple Directional Antennas[J].IEEE Access,2020,8(99):85083-85093. [43]DEY S,MITTRA R.Compact microstrip patch antenna[J].Microwave & Optical Technology Letters,2015,13(1):12-14. [44]TOORCHI N,HU F,PUDLEWSKI S,et al.Volcano Routing:A Multi-Pipe High-Throughput Routing Protocol with Hole Avoidance for Multi-Beam Directional Mesh Networks[J].IEEE Transactions on Mobile Computing,2020,19(12):2981-2996. [45]ZHANG L,HU L,HU F,et al.Enhanced OLSR routing for airborne networks with multi-beam directional antennas[J].Ad Hoc Networks,2020,102(1):102-116. [46]FREEMAN L C.Centrality in social networks conceptual clarification[J].Social Networks,1978,1(3):215-239. [47]YANG Y,DONG Y,CHAWLA N V.Predicting node degree centrality with the node prominence profile[J].Scientific Reports,2014,4(1):1-7. [48]BASH B A,GOECKEL D,TOWSLEY D,et al.Hiding information in noise:fundamental limits of covert wireless communication[J].IEEE Communications Magazine,2015,53(12):26-31. [49]KHAN M A,NOOR F,ULLAH I,et al.An Efficient Medium Access Control Mechanism for Flying Ad-hoc Networks[J].Computer Systems Science and Engineering,2021,38(1):47-63. [50]BAI W,XU Y H,WANG J L,et al.Cognitive Neighbor Disco-very With Directional Antennas in Self-Organizing IoT Networks[J].IEEE Internet of Things Journal,2021,8(8):6865-6877. [51]LI A,WU G,DONG C,et al.CU-MAC:A MAC Protocol forCentralized UAV Networks with Directional Antennas[J].IEICE Transactions on Communications,2020,E103.B(5):537-544. [52]DU J Z,LIU H,CHEN P,et al.Building the Best Reliable Routing Tree Using Link Quality Services in WSNs[J].Acta Automatica Sinica,2007,33(12):1269-1275. |
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