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AnaVANET: an experiment and visualization tool for vehicular networks
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The experimental evaluation of wireless and mobile networks is a challenge that rarely substitutes simulation in research works. This statement is even more evident in vehicular communications, due to the equipment and effort needed to obtain significant and realistic results. In this paper, key issues in vehicular experimental evaluation are analyzed by an evaluation tool called AnaVANET, especially designed for assessing the performance of vehicular networks. This software processes the output of well-known testing tools such as ping or iperf, together with navigation information, to generate geo-aware performance figures of merit both in numeric and graphical forms. Its main analysis capabilities are used to validate the good performance in terms of delay, packet delivery ratio and throughput of NEMO, when using a road-side segment based on IPv6 GeoNetworking.
Manabu TsukadaFollow
Project Assistant Professor at The University of TokyoAdvertisement
AnaVANET: an experiment and visualization tool for vehicular networks
- AnaVANET: an experiment and visualization tool for vehicular networks TRIDENTCOM 2014 Guangzhou, People's Republic of China 6th, May, 2014 Manabu Tsukada Inria,fr => UTokyo,jp José Santa UMU,es Satoshi Matsuura NAIST, jp Thierry Ernst Mines ParisTech, fr Kazutoshi Fujikawa NAIST, jp
- www.anavanet.net AnaVANET: an experiment and visualization tool for vehicular networks Outline 2 Background Issue and requirements for VANET evaluation Evaluation methodology AnaVANET Evaluation of NEMO over IPv6 GeoNetworking
- www.anavanet.net AnaVANET: an experiment and visualization tool for vehicular networks Vehicular Networking 3 Intelligent Transportation Systems (ITS) Systems to achieve road safety, traffic efficiency and comfort Cooperative ITS Systems where multiple ITS Stations share information to achieve better road safety, traffic efficiency and comfort Vehicle, Roadside, Central and Personal ITS Stations Communication Vehicle ITS Station Central ITS Station Personal ITS Station Roadside ITS Station ✓Road safety ✓Traffic efficiency ✓Comfort
- www.anavanet.net AnaVANET: an experiment and visualization tool for vehicular networks Network Layer Protocols for vehicular Networking 4 Vehicle to Vehicle (V2V) wireless communications in dynamic topologies without any infrastructure VANET or MANET Vehicle to Infrastructure (V2I) global connectivity of nodes to the Internet Internet Mobility (Mobile IPv6, NEMO) AODV OLSR GeoNetworking, C2CNet Mobile IPv6 NEMO Network Layer Protocols for vehicular communications Topology based Position based Reactive Proactive Network mobilityHost mobility Infrastructure basedInfrastructure less (VANET or MANET)
- www.anavanet.net AnaVANET: an experiment and visualization tool for vehicular networks Issues on vehicular networks evaluation 5 Common end-to-end evaluation tools such as ping6 and iperf 1. Unawareness of communication path 2. Unawareness of per-hop network performance in the communication path 3. Unawareness of vehicles movement Sender(ping6, iperf) Receiver
- www.anavanet.net AnaVANET: an experiment and visualization tool for vehicular networks Requirements on vehicular network evaluation 6 1. Path detection 2. Communication performance in links 3. Geographical awareness 4. Intuitive visualization 5. Independence from network protocols 6. Independence from devices 7. Adaptation to various scenarios 8. Easiness for data collection
- www.anavanet.net AnaVANET: an experiment and visualization tool for vehicular networks Overview of Evaluation Methodology 7 The evaluation goals are to analyze which testing conditions affect which performance indicators using target network protocols. Distance Static Urban Highway Packet size, Send rate TCP window size, Max segment size Packet size, send interval Testing Scenarios Data Flows Hardware (CPU, Memory), Antenna, Wireless setting(frequency, data rate)Testbed platform Performance Indicators AnaVANET PDR, throughput, Jitter, Hop count Throughput RTT, PDR, Hop count Infrastructure-basedInfrastructure less (NEMO)(OLSR / C2CNet / IPv6 GeoNetworking) Testing Conditions Target Network Protocols (Examples) Number of Vehicles UDP TCP ICMPv6
- www.anavanet.net AnaVANET: an experiment and visualization tool for vehicular networks Testbed platform 8 V2V and V2I network ARs and MRs OS: Linux 2.6.29.6 Wireless configuration •frequency 2.422Ghz •Data rate 6 Mbits/s NEMO is supported GeoNetworking is supported Wireless Wireless MR1 MNN1 cable MR2 MNN2 cable MR3 MR4 Vehicular Network Infrastructure Network AR1 AR2 IPv6 Internet HA1
- www.anavanet.net AnaVANET: an experiment and visualization tool for vehicular networks Testing Scenarios 9 Location Scenarios INRIA Paris-Rocquencourt installations Number of vehicles Up to four vehicles are considered in our case Mobility Scenarios Distance Static Urban Highway parked ~10km/h Obstacle Obstacle parked parked parked parked packet ~100km/h ~100km/h ~100km/h Obstacle ~30km/h ~30km/h ~30km/h
- www.anavanet.net AnaVANET: an experiment and visualization tool for vehicular networks Data Flows and Performance Indicators 10 Data Flows UDP TCP ICMPv6 Performance Indicators Packet Delivery Ratio Round Trip Time Bandwidth Jitter Geographic metric Hop count Speed Position of cars Distance between cars Sender(ping6, iperf) Receiver
- www.anavanet.net AnaVANET: an experiment and visualization tool for vehicular networks Overview of the AnaVANET system 11 Generate packets with UDP, TCP and ICMPv6 Capture packets in all the nodes Trace them packet by packet MNN1 (Sender) MNN2 (Receiver)MR1 MR4 MR2 Cable CableWireless Wireless UDP / ICMPv6 traffic generation iperf / ping6 log tcpdump log GPS log tcpdump log GPS log tcpdump log GPS log iperf log AnaVANET (optional) (optional) XML statistics Packet trace GnuplotWeb font-end (Google maps)AnaVANET Web viewer Graphshttp://anavanet.net/ MR3 tcpdump log GPS log Wireless
- www.anavanet.net AnaVANET: an experiment and visualization tool for vehicular networks Output examples 12 Google maps shows the performance indicators with Movement Distance Obstacles ! ! ! ! ! ! ! ! Graphs generated by gnuplot shows as follow 0 50 100 150 200 250 300 NEMOstatus Time (seconds) Fail Succes 0 20 40 60 80 100 PDR(%) Echo Request via AR2 0 20 40 60 80 100 PDR(%) Echo Request via AR1 0 100 200 300 400 0 5 10 15 20 25 30 Distance(m) RTT(ms) Distance between MR and AR1 Distance between MR and AR2 RTT
- www.anavanet.net AnaVANET: an experiment and visualization tool for vehicular networks IPv6 GeoNetworking using NEMO (ICMPv6) 13 64 bytes in 0.5s interval RTT is about 5ms Binding registrations are lost in the south road Handover without packet loss 120m from AR2, 50m from AR1 0 50 100 150 200 250 300 NEMOstatus Time (seconds) Fail Success 0 20 40 60 80 100 PDR(%) Echo Request via AR2 0 20 40 60 80 100 PDR(%) Echo Request via AR1 0 100 200 300 400 0 5 10 15 20 25 30 Distance(m) RTT(ms) Distance between MR and AR1 Distance between MR and AR2 RTT AR2 AR1 MR 0 20 40 60 80 100 RTT (ms) RTT Packet loss Binding registration Success Binding registration Fail RTT (ms) http://anavanet.net/demo-vienna/?analysis=1296754401
- www.anavanet.net AnaVANET: an experiment and visualization tool for vehicular networks IPv6 GeoNetworking using NEMO (UDP) 14 1250 Bytes packet with 1 Mbps rate UDP packets are lost during 4 seconds in handover Disconnection time after the binding registration failure was seven seconds (= 1 + 2 + 4) 0 20 40 60 80 100 120 140 160 180 NEMOstatus Time (seconds) Fail Success 0 20 40 60 80 100 PDR(%) PDR to AR2 0 20 40 60 80 100 PDR(%) PDR to AR1 0 100 200 300 400 0 100 200 300 400 500 Distance(m) Throughput(Kbits/sec) Distance between MR and AR1 Distance between MR and AR2 Throughput AR2 AR1 MR 0 20 40 60 80 100 PDR (%) PDR to AR1 PDR to AR2 Binding registration Success Binding registration Fail PDR (%) http://anavanet.net/demo-vienna/?analysis=1296759090
- www.anavanet.net AnaVANET: an experiment and visualization tool for vehicular networks Conclusions and future works 15 Conclusions Analysis of evaluation of vehicular networks Evaluation methodology •Analysis of metric impacts the network performance •Performance indicators Design and Implementation of AnaVANET Evaluation of IPv6 GeoNetworking using NEMO Future work Link layer extension i.e. channel quality, load ratio Support for multicast data flows Evaluation of real Cooperative ITS application
- Thank you for attention Manabu Tsukada <tsukada@hongo.wide.ad.jp>
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