IPC분류정보
국가/구분 |
United States(US) Patent
등록
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국제특허분류(IPC7판) |
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출원번호 |
US-0480025
(2000-01-10)
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발명자
/ 주소 |
- Ahmed, Walid
- Doshi, Bharat Tarachand
- Jiang, Hong
- Monogioudis, Pantelis
- Rege, Kiran M.
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출원인 / 주소 |
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인용정보 |
피인용 횟수 :
98 인용 특허 :
2 |
초록
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In an IP addressing aspect of the invention, a method for use in an Internet Protocol (IP) based communications system, comprises the steps of: (i) assigning a temporary location IP address (e.g., LIPA) to a mobile user station in the communications system, the address being a combination of an iden
In an IP addressing aspect of the invention, a method for use in an Internet Protocol (IP) based communications system, comprises the steps of: (i) assigning a temporary location IP address (e.g., LIPA) to a mobile user station in the communications system, the address being a combination of an identifier of the mobile user station (e.g., MID) and an identifier of a network node in the communications system with which the mobile user station is currently associated (e.g., RID); and transferring packets to and from the mobile user station in accordance with the temporary location IP address. The method may further comprise the step of changing the temporary location IP address assigned to the mobile user station when the station becomes associated with another network node of the communications system, the changed address being a combination of the identifier of the mobile user station and an identifier of the new network node. The method may further comprise the step of assigning a location IP address to a network node in the communications system, the address being a combination of an identifier of the network node and a common identifier of mobile user stations in the communications system.
대표청구항
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In an IP addressing aspect of the invention, a method for use in an Internet Protocol (IP) based communications system, comprises the steps of: (i) assigning a temporary location IP address (e.g., LIPA) to a mobile user station in the communications system, the address being a combination of an iden
In an IP addressing aspect of the invention, a method for use in an Internet Protocol (IP) based communications system, comprises the steps of: (i) assigning a temporary location IP address (e.g., LIPA) to a mobile user station in the communications system, the address being a combination of an identifier of the mobile user station (e.g., MID) and an identifier of a network node in the communications system with which the mobile user station is currently associated (e.g., RID); and transferring packets to and from the mobile user station in accordance with the temporary location IP address. The method may further comprise the step of changing the temporary location IP address assigned to the mobile user station when the station becomes associated with another network node of the communications system, the changed address being a combination of the identifier of the mobile user station and an identifier of the new network node. The method may further comprise the step of assigning a location IP address to a network node in the communications system, the address being a combination of an identifier of the network node and a common identifier of mobile user stations in the communications system. of a network including a plurality of paths for which different QoS's are requested, comprising: a registered QoS provided to each of the plurality of paths, the registered QoS storing a QoS value requested for the path to which it is provided; a QoS monitor for each of the plurality of paths, each QoS monitor monitoring a current value of the QoS of its corresponding path; and an operation determiner comparing a particular path's current monitored QoS value with a registered QoS for the path, and determining a next operation to be performed depending on a result of the comparison. 2. The apparatus according to claim 1, wherein said operation determiner comprises: a timer measuring a continuation time of the current monitored QoS value; a comparator comparing the current monitored QoS value at a predetermined continuation time with a registered QoS value for the path; and an operation means performing an operation corresponding to the comparison result obtained by said comparator. 3. The apparatus according to claim 1, wherein said QoS is determined by a BER, said registered QoS is a registered BER, and said QoS monitors are BER monitors. 4. The apparatus according to claim 1, wherein said QoS is determined by a UAS, said registered QoS is a registered UAS, and said QoS monitors are UAS monitors. 5. The apparatus according to claim 1, wherein: said QoS is determined by a time delay of data packets; said registered QoS is a registered time delay of data packets; and said QoS monitors monitor the time delay of data packets. 6. The apparatus according to claim 1, wherein: said QoS is determined by a delay variation of data packets; said registered QoS is a registered delay variation of data packets; and said QoS monitors monitor the delay variation of data packets. 7. The apparatus according to claim 1, wherein: said QoS is determined by a loss of data packets; said registered QoS is a registered loss of data packets; and said QoS monitors monitor the loss of data packets. 8. The apparatus according to claim 2, wherein when a current monitored QoS value does not satisfy a value of a registered QoS, or when it is determined that there is a possibility that the current monitored QoS value does not satisfy the registered QoS, said operation means so notifies a manager, and the manager activates an operation program. 9. The apparatus according to claim 2, wherein when a current monitored QoS value of a particular path does not satisfy the registered QoS of the path, or when it is determined that there is a possibility of the current monitored QoS value not satisfying the registered QoS value, said operation means activates an operation program. 10. The apparatus according to claim 8, wherein said operation program contains a route amendment program that reroutes the path, said route amendment program optimally utilizing network resources, and said route amendment program being executed taking into consideration any deterioration of the QoS caused by rerouting of the path. 11. The apparatus according to claim 9, wherein said operation program contains a route amendment program that reroutes the path, said route amendment program optimally utilizing network resources, and said route amendment program being executed taking into consideration any deterioration of the QoS caused by rerouting the path. 12. A QoS management apparatus that manages a QoS of a network including a plurality of paths for which different QoS's are requested, comprising: means for dividing said plurality of paths into a plurality of service groups, and a service group comprising a path or a group of paths having a plurality of QoS requests similar to each other; a registered QoS, provided for each of said plurality of service groups, said registered QoS storing a value of a QoS requested for the service group; a QoS monitor, provided for each of said plurality of service groups, each QoS monitor monitoring a current value o
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