Computer Science ›› 2020, Vol. 47 ›› Issue (5): 230-235.doi: 10.11896/jsjkx.190300155
• Artificial Intelligence • Previous Articles Next Articles
FENG An-qi, QIAN Li-ping, OUYANG Jin-yuan, WU Yuan
CLC Number:
[1]WHO.Deaths on the roads:based on the WHO global status re-port on road safety 2015[M].World Health Organization (WHO),2015. [2]CHENG N,LYU F,CHEN J Y,et al.Big data driven vehicular networks[J].IEEE Network,2018,32(6):160-167. [3]QIAN L P,WU Y,ZHOU H B,et al.Dynamic cell association for non-orthogonal multiple-access V2S networks[J].IEEE Journal on Selected Areas in Communications,2017,35(10):2342-2356. [4]TAKAHASHI Y,KAWAMOTO Y,NISHIYAMA H,et al.A novel radio resource optimization method for relay-based unmanned aerial vehicles[J].IEEE Transactions on Wireless Communications,2018,17(11):7352-7363. [5]SUN Y L,XU Y,TANG Y L,et al.Traffic offloading for online video service in vehicular networks:a cooperative approach[J].IEEE Transactions on Vehicular Technology,2018,67(8):7630-7642. [6]BHARATI S,ZHUANG W H,THANAYANKIZIL L V,et al.Link-layer cooperation based on distributed TDMA MAC for vehicular networks[J].IEEE Transactions on Vehicular Technology,2017,66(7):6415-6427. [7]LIU K,FENG L,DAI P L,et al.Coding-assisted broadcastscheduling via memetic computing in SDN-based vehicular networks[J].IEEE Transactions on Intelligent Transportation Systems,2018,19(8):2420-2431. [8]RASHDAN L,SCHMIDHAMMER M,MUELLER F P,et al.Performance evaluation of vehicle-to-vehicle communication for cooperative collision avoidance at urban intersections[C]//IEEE 86th Vehicular Technology Conference (VTC-Fall).2017:1-5. [9]HAFEEZ K A,ANPALAGAN A,ZHAO L.Optimizing thecontrol channel interval of the DSRC for vehicular safety applications[J].IEEE Transactions on Vehicular Technology,2016,65(5):3377-3388. [10]KIM B,YI K.Probabilistic and holistic prediction of vehiclestates using sensor fusion for application to integrated vehicle safety systems[J].IEEE Transactions on Intelligent Transportation Systems,2014,15(5):2178-2190. [11]WANG Y,DENG Q X,LIU G H,et al.Dynamic target tracking and predicting algorithm based on combination of motion equation and Kalman filter[J].Computer Science,2015,42(12):76-81. [12]PARK S,KIM B,KANG C,et al.Sequence-to-sequence prediction of vehicle trajectory via LSTM encoder-decoder architecture[C]//IEEE Intelligent Vehicles Symposium (IV).2018:1672-1678. [13]FENG A Q,QIAN L P,HUANG Y P,et al.RFID data driven vehicle speed prediction using adaptiveKalman filter [J].Computer Science,2019,46(4):100-105. [14]BASYONI Y,ABBAS H M,TALAAT H,et al,Speed prediction from mobile sensors using cellular phone-based traffic data[J].IET Intelligent Transport Systems,2017,11(7):387-396. [15]HU X,BAO M,ZHANG X,et al.Quantized Kalman filtertracking in directional sensor networks[J].IEEE Transactions on Mobile Computing,2018,17(4):871-883. [16]HU X,BAO M,ZHANG X,et al.Generalized iterated Kalman filter and its performance evaluation[J].IEEE Transactions on Signal Processing,2015,63(12):3204-3217. [17]RAHIMI A,DUNAGAN B,DARRELL T.Tracking peoplewith a sparse network of bearing sensors[C]//Computer Vision(ECCV 2004).Heidelberg:Springer,2004:507-518. [18]WANG X W,SHEN X L,LIU X S.Random error analysis of MEMS gyroscope based on adaptive Kalman filter[J].Chinese Journal of Sensors and Actuators,2017,30(11):1666-1670. [19]LEBRE M,MOUEL F,MENARD E.On the importance of real data for microscopic urban vehicular mobility trace[C]//International Conference on ITS Telecommunications.2015:22-26. [20]LEBRE M,MOUEL F,MENARD E.Partial and local know-ledge for global efficiency of urban vehicular traffic[C]//IEEE 82nd Vehicular Technology Conference.2015:1-5. |
[1] | GU Xiao-hui,ZHANG Guo-an. Survey of SDN Applications in Vehicular Networks [J]. Computer Science, 2020, 47(1): 237-244. |
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[3] | . Construction and Simulation of Worm Propagation Model in Vehicular Internet of Things [J]. Computer Science, 2012, 39(3): 28-32. |
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