IPC분류정보
국가/구분 |
United States(US) Patent
등록
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국제특허분류(IPC7판) |
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출원번호 |
US-0621966
(2007-01-10)
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등록번호 |
US-8787323
(2014-07-22)
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발명자
/ 주소 |
- Laroia, Rajiv
- Lane, Frank A.
- Li, Junyi
- Richardson, Tom
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출원인 / 주소 |
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대리인 / 주소 |
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인용정보 |
피인용 횟수 :
2 인용 특허 :
126 |
초록
▼
Peer to peer communication timing, e.g., for an ad hoc network, is referenced with respect to an external broadcast signal from a terrestrial or satellite based transmitter. Wireless terminals, seeking to communicate via peer to peer communications, receive the reference broadcast signal, and set th
Peer to peer communication timing, e.g., for an ad hoc network, is referenced with respect to an external broadcast signal from a terrestrial or satellite based transmitter. Wireless terminals, seeking to communicate via peer to peer communications, receive the reference broadcast signal, and set their internal timing structure with respect to the reference signal. This facilitates peer to peer timing coordination. A wireless terminal transmits a signal, e.g., a user beacon signal identifying its presence, during a time interval during which another wireless terminal is expected to be monitoring. Reference signal based coordinated timing and use of user beacon signals allows the wireless terminals to maintain situational awareness and coordinate peer to peer communications, while keeping power consumption low, since wireless terminal modules can be powered down during predetermined intervals in the coordinated timing structure where the wireless terminal does not need to transmit and/or receive.
대표청구항
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1. A method of operating a wireless terminal to communicate with another communications device, the method comprising: receiving a first reference signal from a first communications band, said first reference signal being an OFDM beacon signal from a first communications device which broadcasts the
1. A method of operating a wireless terminal to communicate with another communications device, the method comprising: receiving a first reference signal from a first communications band, said first reference signal being an OFDM beacon signal from a first communications device which broadcasts the first reference signal on a recurring basis but which does not transmit user data to a wireless terminal, said first communications device and said another communications device being different communications devices, said first communications device being a non-access device, said non-access device being an OFDM beacon transmitter device which does not operate as a base station;determining, based on said first reference signal, a first time interval to be used for transmitting a second signal to said another communications device; andtransmitting a second signal to said another communications device during said time interval. 2. The method of claim 1, further comprising: determining, based on said first reference signal, a second time interval to be used for receiving signals from devices other than said first communications device, said second time interval being different from the first time interval. 3. The method of claim 1, wherein transmitting said second signal includes transmitting said second signal in a second communications band which is different from said first communications band. 4. The method of claim 3, wherein beacon signals transmitted by said first communications device are transmitted using a free running timing which is not coordinated with respect to other non-access beacon signal transmitters and base stations. 5. The method of claim 4, further comprising: determining, prior to transmitting the second signal, the second communications band based on the first received reference signal; andwherein the first and second bands are partially overlapping frequency bands. 6. The method of claim 1, further comprising: prior to transmitting said second signal, generating said second signal as a function of one of a device identifier corresponding to said wireless terminal and a user identifier corresponding to a user of said wireless terminal. 7. The method of claim 6, further comprising: determining at least one additional transmit time as a function of a parameter derived from said first reference signal. 8. The method of claim 7, wherein determining at least one additional transmit time includes using a time hopping function which uses said parameter as an input parameter. 9. The method of claim 8, wherein said time hopping function further uses as an input a second parameter derived from another signal received from said first communications device. 10. The method of claim 2, further comprising: establishing a peer to peer communications session with said another device using timing synchronization information derived from said first reference signal. 11. The method of claim 10, further comprising: exchanging user data as part of said peer to peer communications session, said user data including at least one of voice data, text data and image data, said peer to peer communications session being conducted directly between said wireless terminal and said another device over a direct air link. 12. The method of claim 1, further comprising: prior to transmitting said second signal, deriving frequency information from the received first reference signal; anddetermining at least one transmit frequency to be used for transmitting said second signal from the derived frequency information. 13. The method of claim 1, wherein said second signal includes a beacon signal burst. 14. The method of claim 1, wherein said second signal is a pseudo noise sequence signal transmitted over the frequency spectrum of said second frequency band. 15. The method of claim 1, wherein said second signal is an OFDM signal. 16. The method of claim 4, wherein said second signal is an OFDM signal. 17. The method of claim 1, wherein said first reference signal is a satellite broadcast signal and said second signal is a terrestrial broadcast signal. 18. The method of claim 1, wherein said wireless terminal is a mobile handset. 19. A wireless communications device for communicating with another communications device, comprising: a receiver for receiving a first reference signal from a first communications band, said first reference signal being an OFDM beacon signal from a first communications device which broadcasts the first reference signal on a recurring basis but which does not transmit user data to a wireless terminal, said first communications device and said another communications device being different communications devices, said first communications device being a non-access device, said non-access device being an OFDM beacon transmitter device which does not operate as a base station;a transmission interval timing determination module for determining, based on said first reference signal, a first time interval to be used for transmitting a second signal to said another communications device; anda transmitter for transmitting said second signal to said another communications device during said determined time interval. 20. The wireless communications device of claim 19, further comprising: a receive interval timing determination module for determining, based on said first reference signal, a second time interval to be used for receiving signals from devices other than said first communications device, said second time interval being different from the first time interval. 21. The wireless communications device of claim 19, further comprising: a transmission band control module to transmit said second signal in a second communications band which is different from said first communications band. 22. The wireless communications device of claim 21, wherein beacon signals transmitted by said first communications device are transmitted using a free running timing which is not coordinated with respect to other non-access beacon signal transmitters and base stations. 23. The wireless communications device of claim 22, further comprising: a peer to peer communications band determination module for determining, prior to transmitting the second signal, the second communications band based on the first received reference signal; andwherein the first and second bands are non-overlapping frequency bands. 24. The wireless communications device of claim 22, wherein the first and second bands are partially overlapping frequency bands. 25. The wireless communications device of claim 19, further comprising: a second signal generation module for generating second signal, prior to transmitting said second signal, as a function of one of a device identifier corresponding to said wireless communications device and a user identifier corresponding to a user of said wireless communications device. 26. The wireless communication device of claim 25, further comprising: additional transmit time determination module for determining at least one additional transmit time as a function of a parameter derived from said first reference signal. 27. The wireless communications device of claim 26, wherein said additional transmit time determination module uses a time hopping function which uses said parameter as an input parameter. 28. The wireless communications device of claim 27, wherein said time hopping function further uses as an input a second parameter derived from another signal received from said first communications device. 29. The wireless communications device of claim 20, further comprising: a peer to peer communications establishment module for establishing a peer to peer communications session with said another device using timing synchronization information derived from said first reference signal. 30. The wireless communications device of claim 29, further comprising: a peer to peer session management module for controlling the exchange of user data as part of said peer to peer communications session, said user data including at least one of voice data, text data and image data, said peer to peer communications session being conducted directly between said wireless communications device and said another device over a direct air link. 31. The wireless communications device of claim 19, further comprising: a frequency information recovery module for recovering conveyed frequency information from the first reference signal prior to transmitting said second signal, deriving frequency information from the received first reference signal; anda transmission frequency determination module for determining at least one transmit frequency to be used for transmitting said second signal from the derived frequency information. 32. The wireless communications device of claim 19, wherein said second signal includes a beacon signal burst. 33. The wireless communications device of claim 19, wherein said second signal is a pseudo noise sequence signal transmitted over the frequency spectrum of said second frequency band. 34. The wireless communications device of claim 19, wherein said second signal is an OFDM signal. 35. The wireless communications device of claim 22, wherein said second signal is an OFDM signal. 36. The wireless communications device of claim 19, wherein said first reference signal is a satellite broadcast signal and said second signal is a terrestrial broadcast signal. 37. The wireless communications device of claim 19, wherein said wireless communications device is a mobile handset. 38. A wireless communications device for communicating with another communications device, comprising: receiver means for receiving a first reference signal from a first communications band, said first reference signal being an OFDM beacon signal from a first communications device which broadcasts the first reference signal on a recurring basis but which does not transmit user data to a wireless terminal, said first communications device and said another communications device being different communications devices, said first communications device being a non-access device, said non-access device being an OFDM beacon transmitter device which does not operate as a base station;means for determining, based on said first reference signal, a first time interval to be used for transmitting a second signal to said another communications device; andmeans for transmitting said second signal to said another communications device during said determined time interval. 39. The wireless communications device of claim 38, further comprising: receive interval timing determination means for determining, based on said first reference signal, a second time interval to be used for receiving signals from devices other than said first communications device, said second time interval being different from the first time interval. 40. The wireless communications device of claim 38, further comprising: transmission band control means for determining a second communications band in which to transmit said second signal, said second communications band being different from said first communications band. 41. The wireless communications device of claim 40, wherein beacon signals transmitted by said first communications device are transmitted using a free running timing which is not coordinated with respect to other non-access beacon signal transmitters and base stations. 42. The wireless communications device of claim 41, further comprising: a peer to peer communications band determination means for determining, prior to transmitting the second signal, the second communications band based on the first received reference signal; andwherein the first and second bands are non-overlapping frequency bands. 43. The wireless communications device of claim 41, wherein the first and second bands are partially overlapping frequency bands. 44. The wireless communications device of claim 38, further comprising: second signal generation means for generating said second signal, prior to transmitting said second signal, as a function of one of a device identifier corresponding to said wireless communications device and a user identifier corresponding to a user of said wireless communications device. 45. The wireless communications device of claim 44, further comprising: additional transmit time determination means for determining at least one additional transmit time as a function of a parameter derived from said first reference signal. 46. The wireless communications device of claim 45, wherein said additional transmit time determination means uses a time hopping function which uses said parameter as an input parameter. 47. The wireless communications device of claim 46, wherein said time hopping function further uses as an input a second parameter derived from another signal received from said first communications device. 48. The wireless communications device of claim 39, further comprising: peer to peer communications establishment means for establishing a peer to peer communications session with said another device using timing synchronization information derived from said first reference signal. 49. The wireless communications device of claim 48, further comprising: peer to peer session management means for controlling the exchange of user data as part of said peer to peer communications session, said user data including at least one of voice data, text data and image data, said peer to peer communications session being conducted directly between said wireless communications device and said another device over a direct air link. 50. The wireless communications device of claim 38, further comprising: frequency information recovery means for recovering conveyed frequency information from the first reference signal prior to transmitting said second signal, deriving frequency information from the received first reference signal; andtransmission frequency determination means for determining at least one transmit frequency to be used for transmitting said second signal from the derived frequency information. 51. A non-transitory computer readable medium embodying machine executable instructions for controlling a wireless terminal to implement a method of communicating with another communications device, the method comprising: receiving a first reference signal from a first communications band, said first reference signal being an OFDM beacon signal from a first communications device which broadcasts the first reference signal on a recurring basis but which does not transmit user data to a wireless terminal, said first communications device and said another communications device being different communications devices, said first communications device being a non-access device, said non-access device being an OFDM beacon transmitter device which does not operate as a base station;determining, based on said first reference signal, a first time interval to be used for transmitting a second signal to said another communications device; andtransmitting a second signal to said another communications device during said time interval. 52. The non-transitory computer readable medium of claim 51, further embodying machine executable instructions for: determining, based on said first reference signal, a second time interval to be used for receiving signals from devices other than said first communications device, said second time interval being different from the first time interval. 53. The non-transitory computer readable medium of claim 51, wherein said non-transitory computer readable medium further comprises machine executable instructions for: controlling transmitting said second signal in a second communications band which is different from said first communications band, as part of said step of transmitting said second signal. 54. The non-transitory computer readable medium of claim 53, wherein beacon signals transmitted by said first communications device are transmitted using a free running timing which is not coordinated with respect to other non-access beacon signal transmitters and base stations. 55. The non-transitory computer readable medium of claim 54, further embodying machine executable instructions for: determining, prior to transmitting the second signal, the second communications band based on the first received reference signal; andwherein the first and second bands are partially overlapping frequency bands. 56. The non-transitory computer readable medium of claim 51, further embodying machine executable instructions for: prior to transmitting said second signal, generating said second signal as a function of one of a device identifier corresponding to said wireless terminal and a user identifier corresponding to a user of said wireless terminal. 57. An apparatus comprising: a wireless terminal processor configured to: receive a first reference signal from a first communications band, said first reference signal being an OFDM beacon signal from a first communications device which broadcasts the first reference signal on a recurring basis but which does not transmit user data to a wireless terminal, said first communications device and another communications device being different communications devices, said first communications device being a non-access device, said non-access device being an OFDM beacon transmitter device which does not operate as a base station;determine, based on said first reference signal, a first time interval to be used for transmitting a second signal to said another communications device; andcontrol transmission of a second signal to said another communications device during said time interval. 58. The apparatus of claim 57, wherein said wireless terminal processor is further configured to: determine, based on said first reference signal, a second time interval to be used for receiving signals from devices other than said first communications device, said second time interval being different from the first time interval. 59. The apparatus of claim 57, wherein said wireless terminal processor is further configured to: control transmission of said second signal in a second communications band which is different from said first communications band, as part of said controlling transmission of said second signal. 60. The apparatus of claim 59, wherein beacon signals transmitted by said first communications device are transmitted using a free running timing which is not coordinated with respect to other non-access beacon signal transmitters and base stations. 61. The apparatus of claim 60, wherein said wireless terminal processor is further configured to: determine, prior to transmitting the second signal, the second communications band based on the first received reference signal; andwherein the first and second bands are partially overlapping frequency bands. 62. The apparatus of claim 57, wherein said wireless terminal processor is further configured to: generate said second signal as a function of one of a device identifier corresponding to said apparatus and a user identifier corresponding to a user of said apparatus.
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