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Smart City
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B-LE
AgricultureOil&GasManu-
facturingTrans-
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LPWA LPWA ZigBeeISA100 ZigBee WiFiWiFi ZigBee 3G,4GLPWAWiSUN LPWAWiFiWiHART WiFi ZigBee B-LE WiFiB-LEDSRC
WiFi WiFi
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WiFi
3G,4G
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3G,4G3G,4G 3G,4G
PublicCloud
Smart City
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portation HealthcareRetailEnter-
tainmentSmartHome
SmartBuilding
LPWA LPWA ZigBeeISA100 ZigBee WiFiWiFi 3G,4GLPWAWiSUN LPWAWiFi WiFi B-LE WiFiB-LEDSRC
WiFi WiFi
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WiFi
3G,4G
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ZigBee
6LoWPAN RPL6TiSCH
IEEE802.15.4 IPv6Ø127B frame size.ØData Rate: 20~250KbpsØMaximize battery life.
Ø40B Header (Min.)Ø1280B MTU.ØND in multicast.
6LR6LR
6LR
6LR
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ü IPv6 Header Compressionü IPv6 ND Optimizationü Fragmentationü Mesh Header
ūŰƎŝ ţŽźƈƌźƌƂƇƆōŬźƑžƊƸƬƶƘ½ƚƺȎȓǜ�Ċƻ�ÕƫNjƶƠNJƙ�4ƽƘūŧŧŧōşŗřŕŘŜŕśŔřŗŗŝǎoġƸƬƶĕēƫNjƶƠƲƲDŽƘÑUƽ ŝƄƇōŷũƷ½ƚƺȎȓǜ�ĊƿƼ�Õ¥ÃƤ¸ĔƫNjƶƠNJƙ
ǻȐȕȆǢǓǧƤqƫƦàń<ǎÞÜƸƬƲȎȓǜ�ĊƸŴťŰŖūŰ�ĊƼǛȉǭǽǎYDŽNJ�Ċƙ
Whatare“6LoWPAN”protocols?
Best case: (48 B à 4 B)
Link-local Multicast: (48 B à 16 B)
IP Hops : (48 B à 42 B)Full IPv6 Address, Compressed UDP portse.g 2001:0db8:cafe:cafe:0217:3B00:1111:2222 -> 2001:0db8:beef:beef: :68
DSPIPHC(3bits)
LoWPAN_IPHC(13bits)
LoWPAN_NHCUDP
(1byte)
UDPports(4bitsSRC,4bitsDST)
(1byte)
DSPIPHC(3bits)
LoWPAN_IPHC(13bits)
HopLimit(1byte)
SourceAddress(16bytes)
DestinationAddress(16bytes)
LoWPAN_NHCUDP
(1byte)
UDPportsSRC&DST(4bytes)
UDPChecksum(2bytes)
DSPIPHC(3bits)
LoWPAN_IPHC(13bits)
HopLimit(1byte)
DestinationMulticastAddress
(6bytes)
LoWPAN_NHCUDP
(1byte)
UDPportsSRC&DST(4bytes)
UDPChecksum(2bytes)
Link local addresses + Compressed IPv6/UDP headere.g. FE80::0217:3B00:1111:2222 -> FE80::0217:3B00:3333:4444
Multicast Address Compression, Compressed UDP portse.g. FE80::0217:3B00:1111:2222 -> FFxx::00xx:xxxx:xxxx
6LoWPAN-HC
üǦǪǭǜ,�Ʒ1ĵƺǻǒȕȏDzǎ9ļØ ȎȓǜǾǭǫƣLjDNjNJ�\ žŕƀŕōŧŵūŔŝŘØ ǵǭDZȒȕǜƼĕkƣLjěǂDNjNJDžƼ žŕƀŕōƈƊžſƂƐœōƎžƊƋƂƇƆ
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Dipatch Field
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RS: SLLAO
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self-assigned LLA
default route,prefix,
contexts,
6LoWPAN-ND
ü ūŰƎŝȄȏǬǚȉǦDZȔǸǞǭDZƼ�7ü ŝŬƇŷŰţŮǵǭDZȒȕǜ�\Ƽīá őŝŬŤŲƼǑDzȐǦœōǾǭǫTûƼƲDŽƼ�\Œ
Ø ŚƵƼūŰƎŝōŮŦōƇƈƌƂƇƆƸƘřƵƼūťŭŰƎŝōƌƑƈžǎkþØ ŝŬŲƣLjƘŝƄƇƏƈźƆōżƇƆƌžƐƌōőŝťůŒœōţƍƌƁƇƊƂƌźƌƂƎžōŤƇƊŽžƊōŲƇƍƌžƊōőţŤŲůŒǎīáƙØ ŝŬŲƣLjƘţŽŽƊžƋƋōŲžƀƂƋƌƊźƌƂƇƆōőţŲůŒǎ�ÕƬƲŝŬŤŲƿƼÛĴƸŦţŦƼl¦ƙØ ŦţōŲžƉƍžƋƌŖťƇƆſƂƊƅźƌƂƇƆǎ�ÕƬƲƘŝŬŤŲƷƼŦţŦƼl¦ƙ
IPv6NeighborDiscoveryOptimization
ü ūŧŧŧōşŗřŕŘŜŕśōŴƂƅžōųƄƇƌƌžŽōťƁźƆƆžƄōŪƇƈƈƂƆƀōƽƘǽȑǨǦǘȕDZȇȕǤȌȓêƼī ƼǦǞǥȊȕȎȓǝƻoƮNJĎ�ƤAƬƠu¹ÕÌù�Ċő�šōūųţŘŗŗŕŘŘźœō
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ü ƬƣƬƘǦǞǥȊȕȎȓǝƮNJƲDŽƼǸȍȇȕǪƼD�¥ÃdžƘǦǞǥȊȕȏƼĕk¥Ãƽ ūŧŧŧōşŗřŕŘŜŕśō�½ƼîRcƻƺƴƶƠNJƙ
A
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E
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F
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1
22
4
3
3
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Channel
Time
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FàH
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BàE
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IEEE802.15.4TSCHƸĜʼn
ŀðXƼ�ŰźƌƁōťƇƅƈƍƌźƌƂƇƆōŧƄžƅžƆƌōőŰťŧŒōƤǦǞǥȊȕȏƻ�Ďƺ�\ǎŀDŽƘēìƬƶƘGǶȕDzƻ ťƇţŰǎ�ƴƶijwƮNJƙǦǞǥȊȕȏƼíÒƽƘGǶȕDzƻlČƫNjƲŝŴƂųťŪōůƈžƊźƌƂƇƆōųƍŻƄźƑžƊ őŝƌƇƈŒōƤĉơƙ
ü LowPowerandLossy Network(LLN)ƻƢƠƶƘIEEE802.15.4eTSCHmodeƼǦǞǥȊȕȎȓǝƻ�ĎƺǸȍȇȕǪƼCŀƸĕkǎĉơ�ĊƸƬƶƘ�ƻIETFƷëkƤĬǏƷƠNJƙ
ü ǑȕǚǯǜǬȉƽƘŀðXőťžƆƌƊźƄƂƒžŽŒƸ3£XőŦžżžƆƌƊźƄƂƒžŽŒƼ�¥ƤoġƳƤƘÑUƼƸƩnjƽŀðXƤǻǗȕǙǦƫNjƶƠNJƙ
ŝŴƂųťŪōſƇƊōŬŬŮƋ ǽȑDZǠȏǦǪǭǜ
6TiSCH
ŦůŦţũšōŦžƋƌƂƆźƌƂƇƆōůƊƂžƆƌžŽōŦƂƊžżƌžŽōţżƑżƄƂżōũƊźƈƁ
• d½ƺŬŬŮJƨǑǽȎǞȕǤȌȓƼĎÁǎ(ƻĕēØ ŵƊŻźƆœōūƆŽƍƋƌƊƂźƄœōŪƇƅžōţƍƌƇƅźƌƂƇƆœōŤƍƂƄŽƂƆƀōţƍƌƇƅźƌƂƇƆŕ
• ÍÒÜƻIƭȎȓǜ�ƻč¤Ƽ ǮȎȕ ǎ¼ïFă
• ŦůŦţũǎ¼ïƮNJč¤ƼȇDZȎǭǜǎ�kFăƙØ ȇDZȎǭǜšōƆƇŽžōƋƌźƌžœōžƆžƊƀƑœōƁƇƈŔżƇƍƆƌœōƌƁƊƇƍƀƁƈƍƌœōƄƂƆƃōƊžƄƂźŻƂƄƂƌƑ
• ŬŬŮJƨƼǸǦ¼ï¿¼Ø ĨĿÏ�ƻ�ƭƶ7��\ƼĪ2ķľǎb?ƫƯNJƙà ŴƊƂżƃƄžōŴƂƅžƊ
Ø ȇȈȎƤrƺƠǶȕDzƷDžǸǞǭDZĦĪƷƥNJƙà ŮƇƆŔųƌƇƊƂƆƀōŭƇŽž
Ø řƵƼǸǦ0¼ï¿¼ũƄƇŻźƄōŲžƈźƂƊ šō,�ǎ0¼ïƮNJ¿¼ ȗŦůŦţũƼȇDZȎǭǜƤbǍƴƲ]HêȘ
ŬƇżźƄōŲžƈźƂƊ šōIJ3ÜƻĄ>!�ƮNJ¿¼ ȗȎȓǜƼÏ�Ƥb?ƬƲ]HêȘ
ŲƇƍƌƂƆƀōƇƎžƊōƄƇƏōŰƇƏžƊōŬƇƋƋƑ ƆžƌƏƇƊƃƋ
àIƭÍÒȎȓǜ�ƻƘÙƺNJǑǽȎǞȕǤȌȓƼĎÁƻ�ƭƲıƺǸǦǎ¼ïƷƥNJƙ
ƊƂƈƈƄžōŸƊƓƈƄŹ
ŷƁźƌōƂƋōƕŲŰŬƖōŢ
ŲŰŬƼ7�ȇǭǨȕǥƸǰȕǪǸǦ
• ICMPv6type(155):RPLControlMessagesØDIS/DIOforMP2PØDAO/DAO-ACKforP2MPØDIO+RDO/DRO+RDO/DRO-ACKforP2P
• 2IPv6ExtensionsØ RPLSRHinRoutingHeader:transmissionb/wRPLrouters.Ø RPLOptionforHbHOptionsHeader:exchaningRPLinformationb/wRPLrouters.
• ICMPv6DestinationUnreachableØ Code(7)ErrorinSourceRoutingHeader
MP2P P2MP P2P
Host
Router
Root
Traffic
Path
DIS:DODAG InformationSolicitationDIO:DODAG InformationObjectDAO:DestinationAdvertisementObjectDRO:DiscoveryReplyObjectRDO:RouteDiscoveryOption
ŲŰŬƼǸǦ¼ï�ņǓȇȕǥ
Root0
Root1
App1:SensorDataCollectionMetric:ocp1=Bestlinkquality(ETX)
MetricbasedparentselectionMetric:ocp1=Bestlinkquality
1hop,ETX =53hops,ETX =3
Constraint-basedroutinge.g.avoidwirelesslinksà Findalternativepath
App2:backbonemonitoringMetric:ocp2 =minrank(hopcount)+
constraint-basedrouting51
1
1
11
11
1
1
1
3
32
3 3
33
3
3
7
wiredlinkwirelesslinkETX valueonlinkn
A
B
D
C
E
6lo WG
• ūŰƎŝōţŽźƈƌźƌƂƇƆōŬźƑžƊōƼëkƸūŰƎŝ�½Ƽ��ƙ
• ƕȈǶƖōǎƵƺƧǵǭDZȒȕǜƼ[±�ĊƸƬƶÅÞƫNjƶƠNJƙ
• ŝƄƇƏƈźƆōŷũǎ�ƥöƧ�ƷƘūŧŴŨşŞȗřŗŘŚzȚ®ȘƷéŘOŷũ�ğƤĉǍNjƲƙ
• ȅǭǤȌȓƕŲžƋƇƍƊżžŔżƇƆƋƌƊźƂƆžŽōŮƇŽžƋƖƼǵǭDZȒȕǜƷ ūŰƎŝǎ�ơƲDŽƼ�ĊƼ¾Ê?ǎĉơƙ
à ŝŬƇŷŰţŮƼ�ÕƸ��ƸūŰƎŝ�½ƿƼBªƙ
IPv6 over Networks of Resource-constrained Nodes
Internet AreaChairsØ Samita ChakrabartiØ Gabriel Montenegro, Microsoft
RRC7388: MIB for 6LoWPAN, Oct-2014RFC7400: 6LoWPAN-GHC, Nov-2014RFC7428: IPv6 over ITU-T G.9959, Feb-2015RFC7668: IPv6 over BTLE, Oct-2015RFC7973: Assignment of an Ethertype for 6LoWPAN
(6LoWPANoverFoo)
Active/Related Documents
üǨǚȊȎǯǒØ ŦƂžƌŔūŰƋžżŖŧųŰØ ŝƄƇōţŽŽƊžƋƋōŰƊƇƌžżƌžŽōŮŦØ ŦžƋƂƀƆźƌƂƆƀōŝŬŤŲōſƇƊōūūŦōţƋƋƂƀƆƅžƆƌ
üǢǽȎȇȓDZØ ŰƊƂƎźżƑōťƇƆƋƂŽžƊźƌƂƇƆƋōſƇƊōŝŬƇōōőūƆōŬźƋƌōťźƄƄŒØ ŵƋžōżźƋž
2016z11®«Ë
6lo WG
ü��Ø ŰźƀƂƆƀōŦƂƋƈźƌżƁōőţŵŴŪśşŒØ ūţŮţōŲžƀŕōſƇƊōŧųťōŦƂƋƈźƌżƁōťŰōőūƆōŬźƋƌōťźƄƄŒØ ūŧŧŧōşŗřŕŘŜŕśōūŧōźƄƄƇżźƌƂƇƆōȗūƆŽƂƎƂŽƍźƄȘØ ŝŬƇŷŰţŮōŤźżƃŻƇƆžōŲƇƍƌžƊØ şŗřŕŘŜŕśōūŧōžƆżźƈƋƍƄźƌƂƇƆōƇſōūťŭŰƎŝōŲţØ ţōŝƄƇŲŪōſƇƊōŤƂƌųƌƊƂƆƀƋØ ŰźżƃžƌōŧƐƈƂƊźƌƂƇƆōŴƂƅžōƂƆōŝƄƇōŲƇƍƌƂƆƀōŪžźŽžƊØ ůƈƌƂƅƂƒžŽōŝŬƇŷŰţŮōŨƊźƀƅžƆƌōŪžźŽžƊØ ŬŬŮōŨƊźƀƅžƆƌōŨƇƊƏźƊŽƂƆƀōźƆŽōŲžżƇƎžƊƑØ ţƆōŵƈŽźƌžōƌƇōŝŬƇŷŰţŮōŮŦō
ü �ÕØ ūŰƎŝōƇƎžƊōŭųŖŴŰōőūƆōŬźƋƌōťźƄƄŒØ ūŰƎŝōƇƎžƊōŦŧťŴŔŵŬŧōőūƆōŬźƋƌōťźƄƄŒØ ūŰƎŝōƇƎžƊōŮŨťØ ūŰƎŝōƇƎžƊōŤŬŧōŭžƋƁōŮžƌƏƇƊƃƋ
6tisch WG
• ūŧŧŧşŗřŕŘŜŕśžƼŴųťŪȈȕDzǎ�ƴƲǵǭDZȒȕǜ¼�¥ÃdžíÒ�ĊƼ¾Ê?ǎĉơƙ
• ūŧŧŧşŗřŕŘŜŕśžōŴųťŪØ«8I°ƻLJNJǦȑǭDZő«ķȔLĤ3;ŒƼI°
ØŰƊžŽƂżƌźŻƄžōƈƇƏžƊōżƇƆƋƍƅƈƌƂƇƆ
• ūŧŴŨşşőřŗŘŚzŘŘ®ŒƷéŘOŷũ�ğƤĉǍNjƲƙ
IPv6 over the Time Synchronous & Channel Hoppoing mode of IEEE 802.15.4e
Internet AreaChairsØ Pascal Thubert, CiscoØ Thomas Watteyne, INRIA
RFC 7554: Problem Statement
Active/Related Documents2016z11®«Ë
6tisch WG
Ø WGDocumentsØ 6topProtocol(6P)Ø 6TiSCH6topSchedulingFunctionZero(SF0)Ø AnArchitectureforIPv6overtheTSCHmodeofIEEE802.15.4(Dead)Ø Minimal6TiSCHConfiguration(ADEval.)
ü RelatedI-DsØ 6tischSecureJoinprotocolØ SchedulingFunctionOne(SF1)forhop-by-hopSchedulingin6tischNetworksØ MinimalSecurityFrameworkfor6TiSCH
roll WG
• ŲťŮƸŬŬŮǎKǃǵǭDZȒȕǜƻƢƨNJôĥ7��ĊƼ¾Ê?ǎĉơƙ
• ūŧŴŨŞŘőřŗŗşzŚ®ŒƷéŘOŷũ�ğƤĉǍNjƲƙ
• �O(IETF95)ƘȎǬȉȕǪƼ¸ĔƤfǁƴƲƙ
Routing over Low power and Lossy Networks
ūƆƌžƊƆžƌōţƊžźťƁźƂƊƋØ ŰžƌžƊōƎźƆōŽžƊōųƌƇƃœōťƇƆƋƍƄƌźƆƌØ ūƆžƋōŲƇŻƄžƋœōŧƊƂżƋƋƇƆ
RFC6206:RPL,TrickleAlgorithm,Mar-2011RFC6550:RPL,Corespecification,Mar-2012RFC6551:RPL,Routing Metrics,Mar-2012RFC6552:RPL,Objective Function Zero,Mar-2012RFC6553:IPv6Hop-by-HopOptionforRPL,Mar-2012RFC6554:IPv6RoutingHeaderOptionforRPL,Mar-2012RFC6719:RPL,MR-HOF,Sep-2012RFC6997:P2P-RPL,Reactive Discoveryof P2PRoutes,Aug-2013RFC6998:P2P-RPL,Mechanism to measure the metriccs,Aug-2013RFC7731:MPL:corespecification,Feb-2016RFC7732:MPL:Forwader PolicywithAdmin-LocalScope,Feb-2016RFC7774:MPL:ParameterConfigurationOptionforDHCPv6
RequirementsforUrban,IA,HA,BAApplicabilityinHA,BATerminologySecurityThreadAnalysis
ưƼ�
Active/Related Documents2016z11®«Ë
roll WG
Ø WGDocumentsØ 6LoWPANRoutingHeaderØ WhentouseRFC6553,6554andIPv6-in-IPv6
LPWAN
Ø ńÂŌ>Ʒe20z>�ƮNJǰǷǓǦDžƟNJƙ
Ø 6ĮĤłƽeƷ¤10ȄǓȏǎ�kƬƶƠNJƙ
Ø ISMxdžȍǓǨȓǦǎ�ĎƸƬƺƠxZǎ�ÕƬƶƠNJƙ
NewElectronics,MachinaResearch,Dec-2015http://www.newelectronics.co.uk/electronics-news/mobile-industry-agrees-on-technology-standards-for-global-lpwa-market/111777/
2023zƘLPWAǰǷǓǦƼ�÷¤ƽð30&ƻƺNJƸ��ƙ
2020zƘǢȕǹǦƼCÝƽð64)/ƻƺNJƸ��ƙ
MachinaResearch,Feb-2015https://machinaresearch.com/news/with-3-billion-connections-lpwa-will-dominate-wide-area-wireless-connectivity-for-m2m-by-2023/
ĦĪȐȕDZǎ�ƦƬƶ�ÈĢń<ƷİĤłī ǎFăƻƮNJÌù�ĊƼøäƙLoRaWAN,Sigfox,Weightless,NB-IOT,LTE-MTCƺƹ
Pros.ü�ÈĢń<üǦǪȕXȗĭÕ�ƼJ�Șü��·ȗǰǷǓǦƘp+ǠǦDZȘ
ü�ǰȕǪȐȕDZȗ50bps~200kbpsȘüyÉȗnŀƘISMȘü�dutycycle
Cons.
LPWAN�ĊƼ�
http://itpro.nikkeibp.co.jp/atcl/column/16/071500148/072000003/
§ôBPã:IoTJƨī ƻ�·â`ǎDžƲLjƮƛLPWAƜ,2016z7®25§
LPWAN�ĊƼ�• Haystack, a DASH7 Mode 2 development framework for low power wireless networks by Haystack Technologies.[3]
• LoRaWAN,[4] Long Range Wide Area Network (WAN), from the LoRa Alliance. On 16 June 2015 version 1.0 of the LoRaWANspecification was released.[5]
• NarrowBand IoT, (NB-IOT), standardization effort by 3GPP for a LPWAN used in cellular networks,[6] that evolved from Huawei's NB-CIoT effort.[7]
• LTE Advanced for Machine Type Communications (LTE-MTC), an evolution of LTE communications for connected things by 3GPP.[8]
• NB-Fi Protocol, from WAVIoT.[9][10]
• NWave, proprietary technology that also forms the basis of the Weightless protocols[11][12]
• RPMA, Random Phase Multiple Access, technology from Ingenu,[13] formerly known as On-Ramp Wireless.
• Senet, public LoRaWAN provider in North America.[14]
• Symphony Link, LoRa-based platform from Link Labs.[15]
• Sigfox, UNB-based technology and French company.
• ThingPark Wireless, platform from Actility (based on LoRaWAN specification).[16]
• LoRa, proprietary, CSS modulation technology used for LPWAN patented by Semtech by LoRa Alliance used by LoRaWAN and Symphony Link.[17]
• Weightless, a set of communication standards from the Weightless SIG.
• UNB, Ultra Narrow Band, modulation technology used for LPWAN by various companies including Telensa,[18] NWave,[19] Weightless-N[20] and Sigfox.[21]
Platforms and technologies, wikipedia (řŗŘŝzś®«Ë)
lpwan WG
Referred to IETF95 – LPWAN BOF, Alexander Pelov ([email protected])
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• ȅǭǤȌȓü IPv6overLPWANƼ�Ċ�½¸ĔƸëk
àWGƼoġƽ SIGFOX,LoRa,WI-SUN,NB-IOT
• řŗŘŝzŘŘ® ūŧŴŨŠŞōųžƇƍƄōƷéŘOŷũȅȕǯǒȓǝƤĶ$ƫNjƲƙ
Low Power Wide Area Network
2017z4®:LPWANspecification2017z5®:IP/UDPcompressionandfragmentationmechanism2017z7®:CoAP compressionmechanism
Internet AreaChairsØ Pascal Thubert, CiscoØ Alexander Pelov, Acklio
WAVE
The Network Configuration for V2I Networking
TCC
RSU1 RSU2
VehicularCloud
WAVE Reference Model, IEEE 1609.3-2016
Secu
rityIE
EE
1609.2
Managem
ent
IEE
E 1
909.6
Higher Layer StandardsIEEE 1609.11, 1609.12
UDP/TCP
IPv6
LLC
WSMP
WAVE MAC
PHY
IEEE 802.11pMAC Sublayer
IEEE 802.11p
IEEE 1609.4
IEEE 1609.3
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ü řŗŘŝzś®ƻūŧŧŧŘŝŗŠŕŚŔřŗŘŝōŷţŶŧōŮžƌƏƇƊƃƂƆƀōųžƊƎƂżžƋōƤÚĉƫNjƲƙüǵǭDZȒȕǜƽ ūŰƎŝƘȎȓǜ�Ċƽ ūŧŧŧōşŗřŕŘŘōůťŤōǎ�ÕƬƶƠNJƙ
e.g.802.11-OCB802.15.4802.11adVLCIrDALTE-DLP-WAN
WirelessWired
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ipwave WGIP over Wireless Access in Vehicular Environments
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• Ĝʼnü ūŧŧŧōŘŝŗŠŕŚōƷ�kƫNjƲ ūŰƎŝǿȕǦƼī �ņƼĘñƤkþƫNjƶƠƺƠƙ
• ȅǭǤȌȓü ūŧŴŨƼđËƣLjŶřŶœōŶřūōƼĜʼnǎ©LjƣƻƮNJƙü ūŰƎŝōƇƎžƊōūŧŧŧōşŗřŕŘŘōůťŤōƻ�Ďƺ�ĊȔ�ņǎ¸ĔȔëkƮNJƙ
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2017z05®:Submit"IPv6over802.11-OCB"toIESG2017z10®:Submit"ITSGeneralProblemArea"toIESG2018z05®:Submit"ProblemStatement"toIESG
Internet AreaChairsØ Carlos Bernardos, UC3MØ Russ Housley, Vigil Security
ipwave WG
ü IPv6 Addressingü Neighbor Discoveryü IP Address Autoconfigurationü DNS Naming Serviceü IP Mobility Managementü Service Discoveryü Security
Problem Statement for Vehicle-to-Infrastructure Networkinghttps://datatracker.ietf.org/doc/draft-jeong-its-v2i-problem-statement/
Transmission of IP Packets over IEEE 802.11 in mode Outside the Context of a Basic Service Sethttps://datatracker.ietf.org/doc/draft-petrescu-ipv6-over-80211p/
Internetworking between Vehicle Network and RSU Network
Host 1 RDNSS 1 Router 1
Host 2 Router 2
Router 3 RDNSS 2 Host 3
Router 4 Server 2Server 1
RSUVehicle
2018z5®ƻIESGƻ�æƮNJ�kƙ
2017z5®ƻIESGƻ�æƮNJ�kƙ
IP over Wireless Access in Vehicular Environments
Authors:AlexandrePetrescu,CEA,FranceNabilBenamar,Moulay IsmailUniversity,MoroccoJeromeHaerri,Eurecom,FranceChristianHuitemaJong-Hyouk Lee,Sangmyung University,SouthKorea
ǁƸDŽ
• ”ȈǶ”ǎƵƺƧ�ĊƼ��Ƽò Ø6LoWPANØ6TiSCHØRPL
• IETFƻƢƨNJ”ȈǶ”ǎƵƺƧ�ĊƼ>JØ6loWGØ6tischWGØrollWGØlpwan WGØipwave WG