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Routing / Optimized Link State Routing Protocol / Wireless mesh network / Ad hoc On-Demand Distance Vector Routing / Dynamic Source Routing / Link-state routing protocol / Temporally-ordered routing algorithm / Mesh networking / Wireless sensor network / Wireless networking / Network architecture / Technology


HEAT: Scalable Routing in Wireless Mesh Networks Using Temperature Fields Rainer Baumann∗ , Simon Heimlicher∗ , Vincent Lenders† , Martin May∗ ∗ Computer Engineering and Networks Laboratory
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Document Date: 2014-01-04 04:40:31

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Ad Hoc Networks / Wireless Information Networks / M. May / Vehicular Ad Hoc Networks / Multimedia Networks / B. Plattner / Hybrid Wireless Mesh Networks / Mobile / Dense Sensor Networks / Special Interest Group / Mobile Ad Hoc Networks / Wireless Mesh Networks / IEEE Journal / /

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FDA Phase / /

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beacon AODV OLSR HEAT / HEAT beacon / Electrical Engineering Princeton University / University of Niigata / /

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Internet access / network-wide Internet connectivity / hand-held devices / Internet coverage / Internet Indirection Infrastructure / ad-hoc networks / web browsing / Internet connectivity / Internet Draft / anycast routing protocols / large-scale wireless networks / large or/and dense networks / comparable wireless coverage / car mobility / sensor networks / proactive anycast routing algorithm / meshed wireless / large network / mesh network / suitable routing protocol / wireless nodes / Internet Gateways Finally / web-like traffic / larger networks / Wireless Infrastructure / Internet gateway nodes / mesh networks / static dense and large mesh networks / unicast routing protocols / anycast / link state routing protocol / car speed / Wireless On-demand Network Systems / streaming applications / proactive protocol / zone routing protocol / Internet gateways / wireless networks / actual road network / search route discovery algorithm / layer protocol / large and dense networks / Internet traffic model / Internet gateway / anycast routing protocol / rendezvous routing protocol / car speeds / /

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