Method and apparatus for communicating in a relay communication network
First Claim
1. A method for wireless communication, comprising:
- receiving at least one data transmission of at least one data packet in a first time interval from at least one first station at a first depth in a relay communication network, the at least one data transmission being broadcast by the at least one first station and received by a second station at a second depth higher than the first depth;
decoding the received at least one data transmission to recover the at least one data packet from the at least one first station at the first depth, wherein the received at least one data transmission is different from timing synchronization beacons, wherein the decoding includes;
decoding data transmissions received from stations at depth d, where d is equal to a lowest depth initially; and
decoding data transmissions received from stations at next higher depth d+1 if the data transmissions from the stations at depth d are unsuccessfully decoded;
generating a data transmission for the second station comprising the at least one data packet recovered from the at least one data transmission received from the at least one first station at the first depth;
setting the second depth of the second station to depth d+1 if the data transmissions from the stations at depth d are successfully decoded; and
estimating interference based on the recovered at least one data packet to generate an interference cancelled signal by sending the data transmission from the second station that receives the at least one data transmission from the at least one first station to a station that generates the interference to obtain estimated interference.
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Accused Products
Abstract
Techniques for transmitting data in a relay communication network are described. In an aspect, stations in the relay network may be grouped into multiple depths, and stations at each depth may send the same transmission in each time interval. Packets may be transmitted in a pipelined manner in the relay network. Transmissions of a packet may be sent by stations at progressively higher depth in successive time intervals. A station may perform auto-configuration, attempt to decode transmissions from stations at different depths, and determine its depth based on decoding results. In another aspect, stations at each depth may transmit the same synchronization signal, and stations at different depths may transmit different synchronization signals. In one design, the synchronization signals for different depths may be different pilots, which may be generated with different scrambling codes or different orthogonal codes or may be multiplexed in frequency and/or time.
45 Citations
11 Claims
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1. A method for wireless communication, comprising:
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receiving at least one data transmission of at least one data packet in a first time interval from at least one first station at a first depth in a relay communication network, the at least one data transmission being broadcast by the at least one first station and received by a second station at a second depth higher than the first depth; decoding the received at least one data transmission to recover the at least one data packet from the at least one first station at the first depth, wherein the received at least one data transmission is different from timing synchronization beacons, wherein the decoding includes; decoding data transmissions received from stations at depth d, where d is equal to a lowest depth initially; and decoding data transmissions received from stations at next higher depth d+1 if the data transmissions from the stations at depth d are unsuccessfully decoded; generating a data transmission for the second station comprising the at least one data packet recovered from the at least one data transmission received from the at least one first station at the first depth; setting the second depth of the second station to depth d+1 if the data transmissions from the stations at depth d are successfully decoded; and estimating interference based on the recovered at least one data packet to generate an interference cancelled signal by sending the data transmission from the second station that receives the at least one data transmission from the at least one first station to a station that generates the interference to obtain estimated interference. - View Dependent Claims (2, 3, 4, 5, 6)
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7. An apparatus for wireless communication, comprising:
at least one processor configured to receive at least one data transmission of at least one data packet in a first time interval from at least one first station at a first depth in a relay communication network, the at least one data transmission being broadcast by the at least one first station and received by a second station at a second depth higher than the first depth, to decode the received at least one data transmission to recover the at least one data packet from the at least one first station at the first depth, wherein the received at least one data transmission is different from timing synchronization beacons, wherein configuration to decode includes configuration to decode data transmissions received from stations at depth d, where d is equal to a lowest depth initially, and configuration to decode data transmissions received from stations at next higher depth d+1 if the data transmissions from the stations at depth d are unsuccessfully decoded, to generate a data transmission for the second station comprising the at least one data packet recovered from the at least one data transmission received from the at least one first station at the first depth, and to broadcast the data transmission in a second time interval from the second station at the second depth, to set the second depth of the second station to depth d+1 if the data transmissions from the stations at depth d are successfully decoded, and to estimate interference based on the recovered at least one data packet to generate an interference cancelled signal by sending the data transmission from the second station that receives the at least one data transmission from the at least one first station to a station that generates the interference to obtain estimated interference. - View Dependent Claims (8)
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9. An apparatus for wireless communication, comprising:
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means for receiving at least one data transmission of at least one data packet in a first time interval from at least one first station at a first depth in a relay communication network, the at least one data transmission being broadcast by the at least one first station and received by a second station at a second depth higher than the first depth; means for decoding the received at least one data transmission to recover the at least one data packet from the at least one first station at the first depth, wherein the received at least one data transmission is different from timing synchronization beacons, wherein the means for decoding includes; means for decoding data transmissions received from stations at depth d, where d is equal to a lowest depth initially; and means for decoding data transmissions received from stations at next higher depth d+1 if the data transmissions from the stations at depth d are unsuccessfully decoded; means for generating a data transmission for the second station comprising the at least one data packet recovered from the at least one data transmission received from the at least one first station at the first depth means for broadcasting the data transmission in a second time interval from the second station at the second depth; means for setting the second depth of the second station to depth d+1 if the data transmissions from the stations at depth d are successfully decoded; and means for estimating interference based on the recovered at least one data packet to generate an interference cancelled signal by sending the data transmission from the second station that receives the at least one data transmission from the at least one first station to a station that generates the interference to obtain estimated interference. - View Dependent Claims (10)
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11. A non-transitory computer-readable medium comprising:
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code for causing at least one computer to receive at least one data transmission of at least one data packet in a first time interval from at least one first station at a first depth in a relay communication network, the at least one data transmission being broadcast by the at least one first station and received by a second station at a second depth higher than the first depth; code for causing the at least one computer to decode the received at least one data transmission to recover the at least one data packet from the at least one first station at the first depth, wherein the received at least one data transmission is different from timing synchronization beacons, wherein the code for causing the at least one computer to decode includes; code for causing the at least one computer to decode data transmissions received from stations at depth d, where d is equal to a lowest depth initially; and code for causing the at least one computer to decode data transmissions received from stations at next higher depth d+1 if the data transmissions from the stations at depth d are unsuccessfully decoded; code for causing the at least one computer to generate a data transmission for the second station comprising the at least one data packet recovered from the at least one data transmission received from the at least one first station at the first depth; code for causing the at least one computer to broadcast the data transmission in a second time interval from the second station at the second depth; code for causing the at least one computer to set the second depth of the second station to depth d+1 if the data transmissions from the stations at depth d are successfully decoded; and code for causing the at least one computer to estimate interference based on the recovered at least one data packet to generate an interference cancelled signal by sending the data transmission from the second station that receives the at least one data transmission from the at least one first station to a station that generates the interference to obtain estimated interference.
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Specification