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 | Document Date: 2010-03-15 04:38:26Open Document File Size: 759,75 KBShare Result on FacebookCityLa Jolla / Cambridge / London / Boston / New York / /CompanyPhilips / Communication Networks / /CountryUnited States / United Kingdom / /CurrencyUSD / / /FacilityTHE HIGHWAY / University of California / University of California at Berkeley / /IndustryTermad-hoc wireless networks / exponential power law behavior / wireless backbone containing paths / wireless communication model bounds / wireless backbone / high power decay law / ad hoc networks / arbitrary networks / wireless network / arbitrary network / random dense network / adopted scaling law / exponential attenuation law / power decay law / random network / plane networks / wireless transmitters / dense networks / random extended network / wireless propagation / dense network / Wireless Networks / time division protocol / wireless communication / dense ad hoc networks / /OrganizationNational Competence Center / School of Computer / University of California / Department of Electrical and Computer Engineering / National Science Foundation / Cambridge Univ. / Swiss National Science Foundation / School of Computer and Communication Sciences / Department of Electrical Engineering and Computer Science / University of California / San Diego / /PersonDavid N. C. Tse / Patrick Thiran / Olivier Dousse / /Positiongeneral information theoretic setting / packet radio network model / ” IEEE Trans / Associate Editor / model of communication / /ProvinceOrStateCalifornia / /PublishedMediumIEEE TRANSACTIONS ON INFORMATION THEORY / /TechnologyCovering algorithms / routing protocol / simulation / TDMA / described protocol / Digital Object Identifier / /SocialTag |