IPC분류정보
국가/구분 |
United States(US) Patent
등록
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국제특허분류(IPC7판) |
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출원번호 |
US-0340499
(1999-06-30)
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발명자
/ 주소 |
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출원인 / 주소 |
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대리인 / 주소 |
Wadsworth, Phili R.Baker, Kent D.Rouse, Thomas R.
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인용정보 |
피인용 횟수 :
43 인용 특허 :
14 |
초록
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A method and apparatus for dynamically adjusting the signal-to-interference ratio (SIR) threshold used to control signal transmission power in closed loop communication systems. The closed loop power control comprises an inner loop that provides up/down transmission power control commands to a trans
A method and apparatus for dynamically adjusting the signal-to-interference ratio (SIR) threshold used to control signal transmission power in closed loop communication systems. The closed loop power control comprises an inner loop that provides up/down transmission power control commands to a transmitter based upon a comparison of the SIR for a received signal to the threshold SIR. The outer loop dynamically adjusts the threshold SIR using historic inner loop power control information. When it is detected that the inner loop is not acceptably performing power control, the target SIR is not changed, or may increased or decreased more or less than 0.5 dB or 0.5 dB/99, respectively.
대표청구항
▼
A method and apparatus for dynamically adjusting the signal-to-interference ratio (SIR) threshold used to control signal transmission power in closed loop communication systems. The closed loop power control comprises an inner loop that provides up/down transmission power control commands to a trans
A method and apparatus for dynamically adjusting the signal-to-interference ratio (SIR) threshold used to control signal transmission power in closed loop communication systems. The closed loop power control comprises an inner loop that provides up/down transmission power control commands to a transmitter based upon a comparison of the SIR for a received signal to the threshold SIR. The outer loop dynamically adjusts the threshold SIR using historic inner loop power control information. When it is detected that the inner loop is not acceptably performing power control, the target SIR is not changed, or may increased or decreased more or less than 0.5 dB or 0.5 dB/99, respectively. specifically for said at least some packets at a bit rate which is regulated in several steps by a first factor which depends on the filling degree of said at least one output queue; characterized in that the bit rate, at which said at least some data packets are transferred from the input queues to the at least one output queue is moreover regulated by a second factor which is indicative of a mutual weighting of the input queues. 6. A method according to claim 5, wherein the data packtes are transferred via a plurality of virtual connections set up in the network, characterized in that an input queue is allocated to each virtual connection which passes the network element concerned. 7. A method according to claim 6, characterized in that said another second factor for each input queue is a predetermined weight factor for the connection associated with the input queue with respect to the other connections which are set up in the network. 8. A network element for use in a teletransmission network, wherein data packets are transferred between a plurality of network elements at a bit rate which depends on available network capacity, said network element comprising; a plurality of input queues in which data packets, when arriving at a network element, are positioned; one or more output queues to which the data packets may be transferred from the input queues; and means for transferring the data packets from the input queues to the one or more output queues, characterized in that at least one particular output queue is provided specifically for said at least some data packets and that said means are arranged to transfer said at least some data packets to said at least one particular output queue at a bit rate which may be regulated in several steps by a first factor which depends on the filling degree of said at least one particular output queue; means for completely interrupting the transfer of data packets from the input queues to said at least one particular output queue independent of said regulation of the bit rate if said at least one particular output queue concerned is full. 9. A network element according to claim 8, characterized in that it is adapted for use in an asynchronous transfer mode network, wherein said data packets, transferred at a bit rate depending on the available network capacity, are formed by available bit rate traffic. 10. A network element for use in a teletransmission network, wherein data packets are transferred between a plurality of network elements at a bit rate which depends on available network capacity, said network element comprising: a plurality of input queues in which data packets, when arriving at a network element, are positioned; one or more output queues to which the data packets may be transferred from the input queues; and means for transferring the data packets from the input queues to the one or more output queues, characterized in that at least one particular output queue is provided specifically for at least some data packets and that said means are arranged to transfer said at least some data packets to said at least one particular output queue at a bit rate which may be regulated in several steps by a first factor which depends on the filling degree of said at least one particular output queue, characterized in that each input queue corresponds to a virtual connection in the network. 11. A network element for use in a teletransmission network, wherein data packets are transferred between a plurality of network elements at a bit rate which depends on available network capacity, said network element comprising: a plurality of input queues in which data packets, when arriving at a network element, are positioned; one or more output queues to which the data packets may be transferred from the input queues; and means for transferring the data packets from the input queues to the one or more output queues, characterized in that at least one particular output que ue is provided specifically for at least some data packets and that said means are arranged to transfer said at least some data packets to said at least one particular output queue at a bit rate which may be regulated in several steps by a first factor which depends on the filling degree of said at least one particular output queue, characterized in that it moreover comprises means for regulating the bit rate, at which the data packets are transferred from the input queues to the output queue, by a second factor which is indicative of a mutual weighting of the input queues. 12. A network element for use in a teletransmission network, wherein data packets are transferred between a plurality of network elements at a bit rate which depends on available network capacity, said network element comprising: a plurality of input queues in which data packets, when arriving at a network element, are positioned; one or more output queues to which the packets may be transferred from the input queues; and means for transferring the data packets from the input queues to the one or more output queues, characterized in that at least one particular output queue is provided specifically for at least some data packets and that said means are arranged to transfer said at least some data packets to said at least one particular output queue at a bit rate which may be regulated in several steps by a first factor which depends on the filling degree of said at least one particular output queue, said network element including a switching unit, a plurality of input modules, and a plurality of output modules, characterized in that said input queues are positioned on the output modules. 13. A network element according to claim 12, characterized in that said at least one particular output queue is positioned in the switching unit. 14. A network element according to claim 12, characterized by a plurality of output queues which at least corresponds to the plurality of output modules, said plurality of output queues being positioned with at least one output queue on each output module.
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