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dc.contributor.advisorHari Balakrishnanen_US
dc.contributor.authorJamieson, Kyleen_US
dc.contributor.otherNetworks & Mobile Systemsen_US
dc.date.accessioned2008-06-05T18:00:27Z
dc.date.available2008-06-05T18:00:27Z
dc.date.issued2008-06-03en_US
dc.identifier.otherMIT-CSAIL-TR-2008-031en_US
dc.identifier.urihttp://hdl.handle.net/1721.1/41857
dc.description.abstractAt ever-increasing rates, we are using wireless systems to communicatewith others and retrieve content of interest to us. Current wirelesstechnologies such as WiFi or Zigbee use forward error correction todrive bit error rates down when there are few interferingtransmissions. However, as more of us use wireless networks toretrieve increasingly rich content, interference increases inunpredictable ways. This results in errored bits, degradedthroughput, and eventually, an unusable network. We observe that thisis the result of higher layers working at the packet granularity,whereas they would benefit from a shift in perspective from wholepackets to individual symbols.From real-world experiments on a 31-node testbed of Zigbee andsoftware-defined radios, we find that often, not all of the bitsin corrupted packets share fate. Thus, today's wireless protocolsretransmit packets where only a small number of the constituent bitsin a packet are in error, wasting network resources. In thisdissertation, we will describe a physical layer that passesinformation about its confidence in each decoded symbol up to higherlayers. These SoftPHY hints have many applications, one ofwhich, more efficient link-layer retransmissions, we will describe indetail. PP-ARQ is a link-layer reliable retransmission protocolthat allows a receiver to compactly encode a request forretransmission of only the bits in a packet that are likely in error.Our experimental results show that PP-ARQ increases aggregate networkthroughput by a factor of approximately 2x under variousconditions. Finally, we will place our contributions in the contextof related work and discuss other uses of SoftPHY throughout thewireless networking stack.en_US
dc.format.extent153 p.en_US
dc.relationMassachusetts Institute of Technology Computer Science and Artificial Intelligence Laboratoryen_US
dc.relationen_US
dc.subject802.11en_US
dc.subject802.15.4en_US
dc.titleThe SoftPHY Abstraction: from Packets to Symbols in Wireless Network Designen_US


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