IPC분류정보
국가/구분 |
United States(US) Patent
등록
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국제특허분류(IPC7판) |
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출원번호 |
US-0180640
(2002-06-24)
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등록번호 |
US-7290064
(2007-10-30)
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발명자
/ 주소 |
- Patel,Alpesh
- Leung,Kent K.
- Feige,Gaetan
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출원인 / 주소 |
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대리인 / 주소 |
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인용정보 |
피인용 횟수 :
4 인용 특허 :
7 |
초록
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An adaptive feedback technique is described for a Mobile IP environment in which Mobile IP mechanisms provide early feedback to mechanisms in the transport layer and/or application layer of a mobile node in response to detection of changes in link characteristics of the communication used by the mob
An adaptive feedback technique is described for a Mobile IP environment in which Mobile IP mechanisms provide early feedback to mechanisms in the transport layer and/or application layer of a mobile node in response to detection of changes in link characteristics of the communication used by the mobile node to communicate with a data network. Using the early feedback information, appropriate measures may then be taken in order to accommodate the changes in link characteristics. Such appropriate measures may include, for example, providing feedback to media aware applications in order to allow such applications to dynamically adjust their bandwidth requirements to accommodate the new link characteristics, modifying timeout parameters, modifying an encoding formats to accommodate the new link characteristics, notifying participants in a real-time application session of the detected changes in the link characteristics, etc.
대표청구항
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The invention claimed is: 1. A method for providing adaptive feedback in a mobile data network, the mobile data network including a plurality of mobile nodes, a mobile node having an application layer, a transport layer, and a network layer including a mobile IP sub-layer, which communicates with a
The invention claimed is: 1. A method for providing adaptive feedback in a mobile data network, the mobile data network including a plurality of mobile nodes, a mobile node having an application layer, a transport layer, and a network layer including a mobile IP sub-layer, which communicates with a data network via a plurality of network segments, each network segment including a communication link having associated link characteristics, the method comprising: detecting, at the mobile IP sub-layer of a first mobile node, a change in at least one link characteristic associated with a communication link used by the first mobile node to communicate with the data network; transmitting a request from the mobile-IP sub-layer to the transport layer requesting a transport layer API; providing the transport-layer API to the mobile IP sub-layer; executing the API in the mobile-IP sub-layer so that the sub-layer can make a call back to the transport layer wherein the call back contains instructions to the transport layer to notify at least one entity executing in the application layer of the change in the at least one link characteristic; and transmitting a signal from the transport layer to the at least one entity to adapt to the change in the at least one link characteristic, thereby communicating information relating to the change from the mobile IP sub-layer to the at least one entity executing in the application layer. 2. The method of claim 1 wherein said detecting of the change in at least one link characteristic includes detecting a change in a link type associated with the communication link used by the first mobile node. 3. The method of claim 1 wherein said change in link characteristics is detected at the network layer of the first mobile node. 4. The method of claim 1 wherein said notifying is performed by the Mobile UP sub-layer; and wherein said notifying includes notifying an RTP/RTCP layer at the first mobile node of information relating to the change in the at least one link characteristic to thereby enable the RTP/RTCP layer to dynamically adapt to the change in the at least one link characteristic. 5. The method of claim 4 further comprising: notifying, using a first API, the RTP/RTCP layer of information relating to the change in the at least one link characteristic; and dynamically modifying a session bandwidth parameter associated with an RTCP portion of the RTP/RTCP layer to accommodate a bandwidth associated with the at least one link characteristic. 6. The method of claim 4 further comprising: notifying, using a first API, the RTP/RTCP layer of information relating to the change in the at least one link characteristic; and dynamically modifying an RTP message encoding format to accommodate the change in the at least one link characteristic. 7. The method of claim 4 wherein the first mobile node is a participant in a real-time application session; wherein the method further comprises: notifying, using a first API, the RTP/RTCP layer of information relating to the change in the at least one link characteristic; and notifying, via a source descriptor message, at least one other participant in the real-time application session of the change in the at least one link characteristic to thereby allow the at least one other participant to take appropriate action to accommodate the change relating to the at least one link characteristic. 8. The method of claim 7 wherein said source descriptor message is compatible with an RTP protocol. 9. The method of claim 1 further comprising: notifying, using a first API, the transport layer at the first mobile node of information relating to the change in the at least one link characteristic. 10. The method of claim 9 further comprising informing, in response to the first API being invoked, at least one application at the first mobile node of information relating to the change in the at least one link characteristic. 11. The method of claim 10 wherein the informing of the at least one application is accomplished using an enhanced socket API. 12. The method of claim 10 further comprising modifying an outgoing data rate associated with the at least one application to accommodate a bandwidth associated with the at least one link characteristic; wherein modification of the outgoing data rate is performed in response to information being received relating to a change in the at least one link characteristic. 13. The method of claim 1 further comprising: notifying, using a second API, at least one application at the first mobile node of information relating to the change in the at least one link characteristic; wherein the notifying of the at least one application is performed by the Mobile IP sub-layer. 14. The method of claim 13 further comprising modifying an outgoing data rate associated with the at least one application to accommodate a bandwidth associated with the at least one link characteristic; wherein modification of the outgoing data rate is performed in response to information being received, via the second API, relating to a change in the at least one link characteristic. 15. The method of claim 1 further comprising generating, at the first mobile node, a first spoofed source quench message; the first spoofed source quench message having a source address that corresponds to a network address of a first corresponding node in the mobile data network which is engaged in a communication session with the first mobile node; and wherein a destination address of the first spoofed source quench message corresponds to a network address of the first mobile node. 16. The method of claim 15 further comprising: sending the first spoofed source quench message to the first mobile node; and inducing a TCP slow start mechanism at the transport layer of the first mobile node in response to the first mobile node receiving the first spoofed source quench message. 17. The method of claim 15 further comprising inducing a transport layer at the first mobile node to implement a TCP congestion avoidance mechanism. 18. The method of claim 17 wherein said inducing comprises: saving a TCP-ACK message which was last received at the first mobile node; and re-sending the saved TCP-ACK message at the first mobile node. 19. The method of claim 17 wherein said inducing comprises invoking said congestion avoidance mechanism using an API provided by an entity at the transport layer of the first mobile node. 20. The method of claim 15 wherein the first spoofed source quench message is generated in response to a determination that the change in the at least one link characteristic includes a reduction in link bandwidth of the communication link used by the first mobile node to communicate with the data network. 21. A computer program product for providing adaptive feedback in a mobile data network, the mobile data network including plurality of mobile nodes, a mobile node having an application layer, a transport layer, and a network layer including a mobile IP sub-layer which communicates with a data network via a plurality of network segments, each network segment including a communication link having associated link characteristics, the computer program product comprising: a computer usable medium having computer readable code embodied therein, the computer readable code comprising: computer code for detecting, at the mobile IP sub-layer of a first mobile node, a change in at least one link characteristic associated with a communication link used by the first mobile node to communicate with the data network; wherein the call back contains instructions to the transport layer to notify at least one entity executing in the application layer; computer code for transmitting a request from the mobile-IP sub-layer to the transport layer requesting a transport layer API; computer code for providing the transport-layer API to the mobile IP sub-layer; computer code for executing the API in the mobile-IP sub-layer so that the sub-layer can make a call back to the transport layer; wherein the call back contains instructions to the transport layer to notify at least one entity executing in the application layer of the change in the at least one link characteristic; and computer code for transmitting a signal from the transport layer to the at least one entity to adapt to the change in the at least one link characteristic, thereby communicating information relating to the change from the mobile IP sub-layer to the at least one entity executing in the application layer. 22. The computer program product of claim 21 wherein said computer code for detecting of the change in at least one link characteristic includes computer code for detecting a change in a link type associated with the communication link used by the first mobile node. 23. The computer program product of claim 21 wherein said change in link characteristics is detected at the network layer of the first mobile node. 24. The computer program product of claim 21 wherein said change in link characteristics is detected at the Mobile IP sub-layer of the first mobile node. 25. The computer program product of claim 21 wherein said computer code for notifying is implemented at a Mobile IP layer; and wherein said computer code for notifying includes computer code for notifying an RTP/RTCP layer at the first mobile node of information relating to the change in the at least one link characteristic to thereby enable the RTP/RTCP layer to dynamically adapt to the change in the at least one link characteristic. 26. The computer program product of claim 25 further comprising: computer code for notifying, using a first API, the RTP/RTCP layer of information relating to the change in the at least one link characteristic; and computer code for dynamically modifying a session bandwidth parameter associated with an RTCP portion of the RTP/RTCP layer to accommodate a bandwidth associated with the at least one link characteristic. 27. The computer program product of claim 25 further comprising: computer code for notifying, using a first API, the RTP/RTCP layer of information relating to the change in the at least one link characteristic; and computer code for dynamically modifying an RTP message encoding format to accommodate the change in the at least one link characteristic. 28. The computer program product of claim 25 wherein the first mobile node is a participant in a real-time application session; wherein the computer program product further comprises: computer code for notifying, using a first API, the RTP/RTCP layer of information relating to the change in the at least one link characteristic; and computer code for notifying, via a source descriptor message, at least one other participant in the real-time application session of the change in the at least one link characteristic to thereby allow the at least one other participant to take appropriate action to accommodate the change relating to the at least one link characteristic. 29. The computer program product of claim 28 wherein said source descriptor message is compatible with an RTP protocol. 30. The computer program product of claim 21 further comprising: computer code for notifying, using a first API, the transport layer at the first mobile node of information relating to the change in the at least one link characteristic. 31. The computer program product of claim 30 further comprising computer code for informing, in response to the first API being invoked, at least one application at the first mobile node of information relating to the change in the at least one link characteristic. 32. The computer program product of claim 31 wherein the informing of the at least one application is accomplished using an enhanced socket API. 33. The computer program product of claim 31 further comprising computer code for modifying an outgoing data rate associated with the at least one application to accommodate a bandwidth associated with the at least one link characteristic; wherein modification of the outgoing data rate is performed in response to information being received relating to a change in the at least one link characteristic. 34. The computer program product of claim 21 further comprising: computer code for notifying, using a second API, at least one application at the first mobile node of information relating to the change in the at least one link characteristic; wherein the notifying of the at least one application is performed by a Mobile IP layer. 35. The computer program product of claim 34 further comprising computer code for modifying an outgoing data rate associated with the at least one application to accommodate a bandwidth associated with the at least one link characteristic; wherein modification of the outgoing data rate is performed in response to information being received, via the second API, relating to a change in the at least one link characteristic. 36. The computer program product of claim 21 further comprising computer code for generating, at the first mobile node, a first spoofed source quench message compatible with an ICMP protocol; the first spoofed source quench message having a source address that corresponds to a network address of a first corresponding node in the mobile data network which is engaged in a communication session with the first mobile node; and wherein a destination address of the first spoofed source quench message corresponds to a network address of the first mobile node. 37. The computer program product of claim 36 further comprising: computer code for sending the first spoofed source quench message at the first mobile node; and computer code for inducing a TCP slow start mechanism at the transport layer of the first mobile node in response to the first mobile node receiving the first spoofed source quench message. 38. The computer program product of claim 36 further comprising computer code for inducing a transport layer at the first mobile node to implement a TCP congestion avoidance mechanism. 39. The computer program product of claim 38 wherein said computer code for inducing comprises: computer code for saving a TCP-ACK message which was last received at the first mobile node; and computer code for re-sending the saved TCP-ACK message at the first mobile node. 40. The computer program product of claim 38 wherein said computer code for inducing comprises computer code for invoking said congestion avoidance mechanism using an API provided by an entity at the transport layer of the first mobile node. 41. The computer program product of claim 36 wherein the first spoofed source quench message is generated in response to a determination that the change in the at least one link characteristic includes a reduction in link bandwidth of the communication link used by the first mobile node to communicate with the data network. 42. A system for providing adaptive feedback in a mobile data network, the mobile data network including a plurality of mobile nodes, a mobile node having an application layer, a transport layer, and a network layer including a mobile IP sub-layer which communicate with a data network via a plurality of network segments, each network segment including a communication link having associated link characteristics, the system comprising: means for detecting, at the mobile IP sub-layer of a first mobile node, a change in at least one link characteristic associated with a communication link used by the first mobile node to communicate with the data network; means for transmitting a request from the mobile-IP sub-layer to the transport layer requesting a transport layer API; means for providing the transport-layer API to the mobile IP sub-layer; means for executing the API in the mobile-IP sub-layer so that the sub-layer can make a call back to the transport layer, wherein the call back contains instructions to the transport layer to notify at least one entity executing in the application layer of the change in the at least one link characteristic; and means for transmitting a signal from the transport layer to the at least one entity to adapt to the change in the at least one link characteristic, thereby communicating information relating to the change from the mobile IP sub-layer to the at least one entity executing in the application layer. 43. The system of claim 42 wherein said means for detecting of the change in at least one link characteristic includes means for detecting a change in a link type associated with the communication link used by the first mobile node. 44. The system of claim 42 wherein said change in link characteristics is detected at the Mobile IP sub-layer of the first mobile node. 45. The system of claim 42 wherein said means for notifying is implemented at the Mobile IP sub-layer; and wherein said means for notifying includes means for notifying an RTP/RTCP layer at the first mobile node of information relating to the change in the at least one link characteristic to thereby enable the RTP/RTCP layer to dynamically adapt to the change in the at least one link characteristic. 46. The system of claim 45 wherein the first mobile node is a participant in a real-time application session; wherein the system further comprises: means for notifying, using a first API, the RTP/RTCP layer of information relating to the change in the at least one link characteristic; and means for notifying, via a source descriptor message, at least one other participant in the real-time application session of the change in the at least one link characteristic to thereby allow the at least one other participant to take appropriate action to accommodate the change relating to the at least one link characteristic. 47. The system of claim 45 further comprising: means for notifying, using a first API, a transport layer at the first mobile node of information relating to the change in the at least one link characteristic. 48. The system of claim 47 further comprising means for informing, in response to the first API being invoked, at least one application at the first mobile node of information relating to the change in the at least one link characteristic. 49. The system of claim 48 further comprising means for modifying an outgoing data rate associated with the at least one application to accommodate a bandwidth associated with the at least one link characteristic; wherein modification of the outgoing data rate is performed in response to information being received relating to a change in the at least one link characteristic. 50. The system of claim 42 further comprising means for generating, at the first mobile node, a first spoofed source quench message compatible with an ICMP protocol; the first spoofed source quench message having a source address that corresponds to a network address of a first corresponding node in the mobile data network which is engaged in a communication session with the first mobile node; and wherein a destination address of the first spoofed source quench message corresponds to a network address of the first mobile node. 51. The system of claim 50 further comprising means for inducing the transport layer at the first mobile node to implement a TCP congestion avoidance mechanism. 52. A mobile node adapted to provide feedback in a mobile data network, the mobile data network including a plurality of mobile nodes, a mobile node having an application layer, a transport layer, and a network layer including a mobile IP sub-layer, which communicate with a data network via a plurality of network segments, each network segment including a communication link having associated link characteristics, the mobile node comprising: at least one processor; at least one interface configured or designed to provide a communication link to the data network; and memory; the mobile node being configured or designed to detect, at the mobile sub-layer of the mobile node, a change in at least one link characteristic associated with the communication link used by the mobile node to communicate with the data network; and the mobile node being further configured or designed to communicate information relating to the change from the mobile IP sub-layer to at least one entity executing in the application layer, wherein the communication is performed by the mobile IP sub-layer, transmitting a request from the mobile-IP sub-layer to the transport layer requesting a transport layer API, the API provided by the transport layer to the mobile-IP sub-layer and executing the API in the mobile-IP sub-layer so that the sub-layer can make a call back to the transport layer, wherein the call back contains instructions to the transport layer to notify at least one entity executing in the application layer of the chance in the at least one link characteristic. 53. The mobile node of claim 52 wherein the mobile node is further configured or designed to detect a change in a link type associated with the communication link used by the mobile node. 54. The mobile node of claim 52 wherein said change in link characteristics is detected at the network layer of the mobile node. 55. The mobile node of claim 52 wherein said notifying is performed by a Mobile IP layer; and wherein the mobile node is further configured or designed to notify an RTP/RTCP layer at the mobile node of information relating to the change in the at least one link characteristic to thereby enable the RTP/RTCP layer to dynamically adapt to the change in the at least one link characteristic. 56. The mobile node of claim 55 being further configured or designed to: notify, using a first API, the RTP/RTCP layer of information relating to the change in the at least one link characteristic; and dynamically modify a session bandwidth parameter associated with an RTCP portion of the RTP/RTCP layer to accommodate a bandwidth associated with the at least one link characteristic. 57. The mobile node of claim 55 being further configured or designed to: notify, using a first API, the RTP/RTCP layer of information relating to the change in the at least one link characteristic; and dynamically modify an RTP message encoding format to accommodate the change in the at least one link characteristic. 58. The mobile node of claim 55 wherein the mobile node is a participant in a real-time application session; wherein the mobile node is further configured or designed to notify, using a first API, the RTP/RTCP layer of information relating to the change in the at least one link characteristic; and wherein the mobile node is further configured or designed to notify, via a source descriptor message, at least one other participant in the real-time application session of the change in the at least one link characteristic to thereby allow the at least one other participant to take appropriate action to accommodate the change relating to the at least one link characteristic. 59. The mobile node of claim 58 wherein said source descriptor message is compatible with an RTP protocol. 60. The mobile node of claim 52 being further configured or designed to notify, using a first API, a transport layer at the mobile node of information relating to the change in the at least one link characteristic. 61. The mobile node of claim 60 being further configured or designed to inform, in response to the first API being invoked, at least one application at the mobile node of information relating to the change in the at least one link characteristic. 62. The mobile node of claim 61 wherein the informing of the at least one application is accomplished using an enhanced socket API. 63. The mobile node of claim 61 being further configured or designed to modify an outgoing data rate associated with the at least one application to accommodate a bandwidth associated with the at least one link characteristic; wherein modification of the outgoing data rate is performed in response to information being received relating to a change in the at least one link characteristic. 64. The mobile node of claim 52 being further configured or designed to notify, using a second API, at least one application at the mobile node of information relating to the change in the at least one link characteristic; wherein the notifying of the at least one application is performed by a Mobile IP layer. 65. The mobile node of claim 64 being further configured or designed to modify an outgoing data rate associated with the at least one application to accommodate a bandwidth associated with the at least one link characteristic; wherein modification of the outgoing data rate is performed in response to information being received, via the second API, relating to a change in the at least one link characteristic. 66. The mobile node of claim 52 being further configured or designed to generate, at the mobile node, a first spoofed source quench message compatible with an ICMP protocol; the first spoofed source quench message having a source address that corresponds to a network address of a first corresponding node in the mobile data network which is engaged in a communication session with the mobile node; and wherein a destination address of the first spoofed source quench message corresponds to a network address of the mobile node. 67. The mobile node of claim 66 being further configured or designed to send the first spoofed source quench message at the mobile node; and wherein the mobile node is further configured or designed to induce a TCP slow start mechanism at the transport layer of the mobile node in response to the mobile node receiving the first spoofed source quench message. 68. The mobile node of claim 66 being further configured or designed to induce the transport layer at the mobile node to implement a TCP congestion avoidance mechanism. 69. The mobile node of claim 68 being further configured or designed to save a TCP-ACK message which was last received at the mobile node; and wherein the mobile node is further configured or designed to re-send the saved TCP-ACK message at the mobile node. 70. The mobile node of claim 68 being further configured or designed to invoke said congestion avoidance mechanism using an API provided by an entity at the transport layer of the mobile node. 71. The mobile node of claim 66 being further configured or designed to generate the first spoofed source quench message in response to a determination that the change in the at least one link characteristic includes a reduction in link bandwidth of the communication link used by the mobile node to communicate with the data network.
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