Interference cancellation in wireless relaying networks
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
H04B-001/00
H04B-015/00
출원번호
US-0549908
(2004-04-26)
등록번호
US-7336930
(2008-02-26)
국제출원번호
PCT/SE04/000633
(2004-04-26)
§371/§102 date
20050920
(20050920)
국제공개번호
WO04/102891
(2004-11-25)
발명자
/ 주소
Larsson,Peter
Johansson,Niklas
출원인 / 주소
Telefonaktiebolaget LM Ericsson (publ)
대리인 / 주소
Nixon & Vanderhye P.C.
인용정보
피인용 횟수 :
32인용 특허 :
4
초록▼
In accordance with the invention, signal information representative of a first set of information to be transmitted more than one time over at least one link is stored as a priori known signal information. This could be previously received and/or, detected information, own transmitted information o
In accordance with the invention, signal information representative of a first set of information to be transmitted more than one time over at least one link is stored as a priori known signal information. This could be previously received and/or, detected information, own transmitted information or otherwise available relevant signal information in the node. Signal information representative of a second set of information is received, wherein a transmission of the first set of information interferes with the reception of the second set of information. In spite of the interference, at least part of the second set of information can still be successfully be detected by exploiting the received signal information and at least part of the previously stored a priori known signal information. The information is detected by interference cancellation based on the received signal information and relevant parts of the a priori known information. The set of priori known signal information is preferably updated by continuously storing newly detected information.
대표청구항▼
The invention claimed is: 1. A method for detecting signal information in a wireless relaying network, said method comprising the steps of: a first network node storing, as a priori known signal information, previously received signal information representative of a first set of information includi
The invention claimed is: 1. A method for detecting signal information in a wireless relaying network, said method comprising the steps of: a first network node storing, as a priori known signal information, previously received signal information representative of a first set of information including at least one data unit to be transmitted in total more than one time over at least one link; said first network node subsequently receiving signal information representative of a second set of information, wherein a transmission of said at least one data unit by a second network node interferes with the reception of said second set of information; and said first network node detecting at least part of said second set of information by interference cancellation based on the received signal information representative of said second set of information and at least part of said previously stored a priori known signal information, wherein said step of said first network node detecting at least part of said second set of information includes the step of processing a set {tilde over (D)}Σ representative of previously detected data packets and the received signal information Ri according to: description="In-line Formulae" end="lead"{tilde over (D)}=ƒ(Ri,{tilde over (D)}Σ),description="In-line Formulae" end="tail" where ƒ is a predetermined objective function and {tilde over (D)} is the resulting set of detected data packets. 2. The method for detecting signal information in a wireless relaying network according to claim 1, wherein said interference cancellation includes at least one of explicit and implicit interference cancellation. 3. The method for detecting signal information in a wireless relaying network according to claim 1, wherein said at least one data unit is to be transmitted in total more than one time over more than one link. 4. The method for detecting signal information in a wireless relaying network according to claim 1, wherein said wireless relaying network includes at least one of a wireless multi-hop network, a cooperative relaying network and a repeater-based network. 5. The method for detecting signal information in a wireless relaying network according to claim 1, wherein said wireless relaying network is a wireless multi-hop network. 6. The method for detecting signal information in a wireless relaying network according to claim 1, wherein said detecting step involves one of single-user detection and multi-user detection. 7. The method for detecting signal information in a wireless relaying network according to claim 1, wherein said step of said first network node detecting at least part of said second set of information comprises the steps of: removing a priori known signal information from the received signal information to generate a residual signal; and processing said residual signal to detect at least part of said second set of information. 8. The method for detecting signal information in a wireless relaying network according to claim 1, wherein said a priori known signal information includes previously received baseband signal information, and said step of said first network node detecting at least part of said second set of information comprises the step of jointly processing said previously received baseband signal information and subsequently received baseband signal information to detect at least part of said second set of information. 9. The method for detecting signal information in a wireless relaying network according to claim 8, wherein said previously received baseband signal information relate to a number of previous communication instances and the subsequently received baseband signal information relates to the current communication instance, and said previously received baseband signal information and said subsequently received baseband signal information are processed together with complex channel gain information to determine an estimation of at least one detected data packet. 10. The method for detecting signal information in a wireless relaying network according to claim 1, wherein said a priori known signal information includes previously received and detected information. 11. The method for detecting signal information in a wireless relaying network according to claim 10, wherein said previously received and detected information includes previously overheard information. 12. The method for detecting signal information in a wireless relaying network according to claim 1, wherein said step of said first network node detecting at least part of said second set of information is based on transmission schedule information. 13. The method for detecting signal information in a wireless relaying network according to claim 12, wherein said first set of information includes a number of data packets, and said transmission schedule information includes information on which of the data packets that are to be transmitted when the signal information representative of said second set of information is received such that an appropriate part of said previously stored a priori known signal information is exploited in said detecting step. 14. The method for detecting signal information in a wireless relaying network according to claim 1, further comprising the step of continuously updating said a priori known signal information. 15. An arrangement for detecting signal information in a wireless relaying network, said arrangement comprising: means arranged in a first network node for storing, as a priori known signal information, previously received signal information representative of a first set of information, including at least one data unit to be transmitted more than one time over at least one link; means arranged in said first network node for receiving signal information representative of a second set of information, wherein a transmission of said at least one data unit by a second network node interferes with the reception of said second set of information; and means arranged in said first network node for detecting at least part of said second set of information by interference cancellation based on the received signal information representative of said second set of information and at least part of said previously stored a priori known signal information, wherein said means for detecting at least part of said second set of information includes means for processing a set {tilde over (D)}Σ representative of previously detected data packets and the received signal information Ri according to: description="In-line Formulae" end="lead"{tilde over (D)}=ƒ(Ri,{tilde over (D)}Σ),description="In-line Formulae" end="tail" where θ is a predetermined objective function and {tilde over (D)} is the resulting set of detected data packets. 16. The arrangement for detecting signal information in a wireless relaying network according to claim 15, wherein said interference cancellation includes at least one of explicit and implicit interference cancellation. 17. The arrangement for detecting signal information in a wireless relaying network according to claim 15, wherein said at least one data unit is to be transmitted in total more than one time over more than one link. 18. The arrangement for detecting signal information in a wireless relaying network according to claim 15, wherein said wireless relaying network includes at least one of a wireless multi-hop network, a cooperative relaying network and a repeater-based network. 19. The arrangement for detecting signal information in a wireless relaying network according to claim 15, wherein said wireless relaying network is a wireless multi-hop network. 20. The arrangement for detecting signal information in a wireless relaying network according to claim 15, wherein said means for detecting is operable for performing at least one of single-user detection and multi-user detection. 21. The arrangement for detecting signal information in a wireless relaying network according to claim 15, wherein said means for detecting at least part of said second set of information comprises: means for removing a priori known signal information from the received signal information to generate a residual signal; and means for processing said residual signal to detect at least part of said second set of information. 22. The arrangement for detecting signal information in a wireless relaying network according to claim 15, wherein said a priori known signal information includes previously received baseband signal information, and said means for detecting at least part of said second set of information comprises means for jointly processing said previously received baseband signal information and the subsequently received baseband signal information to detect at least part of said second set of information. 23. The arrangement for detecting signal information in a wireless relaying network according to claim 22, wherein said previously received baseband signal information relate to a number of previous communication instances and the subsequently received baseband signal information relates to the current communication instance, and said means for jointly processing is operable for processing said previously received baseband signal information and said subsequently received baseband signal information together with complex channel gain information to determine an estimation of at least one detected data packet. 24. The arrangement for detecting signal information in a wireless relaying network according to claim 15, wherein said a priori known signal information includes previously received and detected information. 25. The arrangement for detecting signal information in a wireless relaying network according to claim 24, wherein said previously received and detected information includes previously overheard information. 26. The arrangement for detecting signal information in a wireless relaying network according to claim 15, wherein said means for detecting at least part of said second set of information operates based on transmission schedule information. 27. The arrangement for detecting signal information in a wireless relaying network according to claim 26, wherein said first set of information includes a number of data packets, and said transmission schedule information includes information on which of the data packets that are to be transmitted when the signal information representative of said second set of information is received, and said means for detecting comprises means for selecting, based on said transmission schedule information, an appropriate part of said previously stored a priori known signal information for use in detecting at least part of said second set of information. 28. The arrangement for detecting signal information in a wireless relaying network according to claim 15, further comprising means for continuously updating said a priori known signal information by incorporating newly detected information and removing outdated signal information. 29. The arrangement for detecting signal information in a wireless relaying network according to claim 15, wherein said arrangement is implemented in a network node of said wireless relaying network. 30. Apparatus for detecting signal information in a wireless relaying network, comprising: memory arranged in a first network node for storing, as known signal information, previously received signal information representative of a first set of information including at least one data unit to be transmitted more than one time over a link; a receiver arranged in the first network node for receiving signal information representative of a second set of information, wherein a transmission of the one data unit by a second network node interferes with the reception of the second set of information; and a detector arranged in the first network node for detecting at least part of the second set of information by interference cancellation based on the received signal information representative of the second set of information and at least part of the stored known signal information, wherein the detector includes a data processor for processing a set {tilde over (D)}Σ representative of previously detected data packets and the received signal information Ri according to: description="In-line Formulae" end="lead"{tilde over (D)}=ƒ(Ri,{tilde over (D)}Σ),description="In-line Formulae" end="tail" where ƒ is a predetermined objective function and {tilde over (D)} is the resulting set of detected data packets. 31. The apparatus according to claim 30, wherein the detector is operable for performing at least one of single-user detection and multi-user detection. 32. The apparatus according to claim 30, wherein the detector comprises processing circuitry for: removing a priori known signal information from the received signal information to generate a residual signal; and processing the residual signal to detect at least part of the second set of information. 33. The apparatus according to claim 30, wherein said known signal information includes previously received baseband signal information, and the detector is configured to jointly process previously received baseband signal information and subsequently received baseband signal information to detect at least part of the second set of information. 34. The apparatus according to claim 33, wherein the previously received baseband signal information relate to a number of previous communication instances and the subsequently received baseband signal information relates to the current communication instance, and the detector is configured to process the previously received baseband signal information and the subsequently received baseband signal information together with complex channel gain information to determine an estimation of at least one detected data packet. 35. The apparatus according to claim 30 implemented in a network node of the wireless relaying network.
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이 특허에 인용된 특허 (4)
Gutleber Frank S. (Little Silver NJ), Non-orthogonal mobile subscriber multiple access system.
Dankberg Mark D. (Encinitas CA) Miller Mark J. (Vista CA) Mulligan Michael G. (Westford MA), Self-interference cancellation for two-party relayed communication.
Tomasin, Stefano; Pfister, Henry David; Hou, Jilei; Smee, John Edward, Adaptation of transmit subchannel gains in a system with interference cancellation.
Hyon, Tae In; Kim, Jae Myoung; Chung, Jae Hak; Yoo, Sang Jo; Jo, Kyoung Jin, Communication method and apparatus for distributed network system where cognitive radio technology is applied.
Coralli, Alessandro Vanelli; Pfister, Henry David; Hou, Jilei; Smee, John Edward; Padovani, Roberto; Butler, Brian K.; Levin, Jeffrey A.; Wilborn, Thomas B.; Bender, Paul E., Method and apparatus for canceling pilot interference in a wireless communication system.
Coralli, Alessandro Vanelli; Pfister, Henry David; Hou, Jilei; Smee, John Edward; Padovani, Roberto; Butler, Brian K; Levin, Jeffrey A; Wilborn, Thomas B; Bender, Paul E, Method and apparatus for canceling pilot interference in a wireless communication system.
Soriaga, Joseph B.; Bhushan, Naga; Hou, Jilei; Chen, Jinghu; Smee, John Edward, Method and system for signal reconstruction from spatially and temporally correlated received samples.
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