Dynamic bandwidth allocation for multiple access communication using session queues
First Claim
1. A method for allocating and deallocating channel resources from a limited number of channel resources used to transmit data from a base station transmitter within a network comprising a plurality of base station transmitters to a plurality of subscriber unit receivers, the method comprising the steps of:
- storing the data to be transmitted to a particular one of the subscriber unit receivers in a plurality of data queues, there being multiple queues associated with each receiver, and with each queue allocated to handle data traffic having a particular traffic type attribute;
accepting data at a transmit processor within the transmitter, the data arriving from the multiple queues for transmission to the particular receiver;
allocating a number of channel resources to the particular receiver; and
monitoring usage of each of the queues by a channel resource assignor to determine the urgency of data to be transmitted to each queue'"'"'s respective receiver in order to dynamically assign an optimum number of channel resources to a communication link between the transmitter and receiver, the urgency determined from the data traffic corresponding to a plurality of the traffic type attributes include content type.
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Accused Products
Abstract
A technique for providing high speed data service over standard wireless connections via an unique integration of protocols and existing cellular signaling, such as is available with Code Division Multiple Access (CDMA) type systems through more efficient allocation of access to CDMA channels. For example, when more users exist than channels, the invention determines a set of probabilities for which users will require channel access at which times, and dynamically assigns channel resources accordingly. Channel resources are allocated according to a buffer monitoring scheme provided on forward and reverse links between a base station and multiple subscriber units. Each buffer is monitored over time for threshold levels of data to be transmitted in that buffer. For each buffer, a probability is calculated that indicates how often the specific buffer will need to transmit data and how much data will be transmitted. This probability takes into account the arrival rates of data into the buffer, as well as which thresholds within the buffer are exceeded, as well as which resources in the form of channels are already allocated to the subscriber unit.
164 Citations
29 Claims
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1. A method for allocating and deallocating channel resources from a limited number of channel resources used to transmit data from a base station transmitter within a network comprising a plurality of base station transmitters to a plurality of subscriber unit receivers, the method comprising the steps of:
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storing the data to be transmitted to a particular one of the subscriber unit receivers in a plurality of data queues, there being multiple queues associated with each receiver, and with each queue allocated to handle data traffic having a particular traffic type attribute;
accepting data at a transmit processor within the transmitter, the data arriving from the multiple queues for transmission to the particular receiver;
allocating a number of channel resources to the particular receiver; and
monitoring usage of each of the queues by a channel resource assignor to determine the urgency of data to be transmitted to each queue'"'"'s respective receiver in order to dynamically assign an optimum number of channel resources to a communication link between the transmitter and receiver, the urgency determined from the data traffic corresponding to a plurality of the traffic type attributes include content type. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
computing an urgency factor associated with each queue based upon statistical information gathered for the accumulation of data at the associated plurality of thresholds for that queue, the urgency factor representing a relative need for the transmitter associated with each queue to transmit data, and wherein the urgency factor each queue is used to determine the optimum number of channel resources to be allocated to the connections between the transmitter and receiver.
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9. The method of claim 1 further including the steps of:
determining how to allocate the available channels among the buffers by determining if the buffer having the highest urgency factor U exceeds a respective high threshold and if the buffer having the lowest urgency factor U exceeds a respective low threshold, and if so, deallocating one resource channel is from the buffer with the lowest urgency factor and reallocating the one resource channel to the buffer with the highest urgency factor.
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10. A method for allocating and deallocating channel resources from a limited number of channel resources used to transmit data from a base station transmitter within a network comprising a plurality of base station transmitters to a plurality of subscriber unit receivers, the method comprising the steps of:
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storing the data to be transmitted to a particular one of the subscriber unit receivers in a plurality of data queues, there being multiple queues associated with each receiver, and with each queue allocated to handle data traffic having a particular traffic type attribute, the individual queues associated with different transport layer sessions for a given user;
accepting data at a transmit processor within the transmitter, the data arriving from the multiple queues for transmission to the particular receiver;
allocating a number of channel resources to the particular receiver; and
monitoring usage of each of the queues by a channel resource assignor to determine the urgency of data to be transmitted to each queue'"'"'s respective receiver in order to dynamically assign an optimum number of channel resources to a communication link between the transmitter and receiver.
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11. A method for allocating and deallocating channel resources from a limited number of channel resources used to transmit data from a base station transmitter within a network comprising a plurality of base station transmitters to a plurality of subscriber unit receivers, the method comprising the steps of:
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storing the data to be transmitted to a particular one of the subscriber unit receivers in a plurality of data queues, there being multiple queues associated with each receiver, and with each queue allocated to handle data traffic having a particular traffic type attribute, each one of the plurality of queues having an associated plurality of thresholds, each threshold associated with the level of data stored in that respective queue, the queue thresholds determined from coding rates assigned to the communications channels associated with the link between the transmitter and receiver;
accepting data at a transmit processor within the transmitter, the data arriving from the multiple queues for transmission to the particular receiver;
allocating a number of channel resources to the particular receiver; and
monitoring usage of each of the queues by a channel resource assignor to determine the urgency of data to be transmitted to each queue'"'"'s respective receiver in order to dynamically assign an optimum number of channel resources to a communication link between the transmitter and receiver.
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12. A method for allocating and deallocating channel resources from a limited number of channel resources used to transmit data from a base station transmitter within a network comprising a plurality of base station transmitters to a plurality of subscriber unit receivers, the method comprising the steps of:
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storing the data to be transmitted to a particular one of the subscriber unit receivers in a plurality of data queues, there being multiple queues associated with each receiver, and with each queue allocated to handle data traffic having a particular traffic type attribute, each one of the plurality of queues having an associated plurality of thresholds, each threshold associated with the level of data stored in that respective queue, the queue thresholds depending upon a round trip transfer time;
accepting data at a transmit processor within the transmitter, the data arriving from the multiple queues for transmission to the particular receiver;
allocating a number of channel resources to the particular receiver; and
monitoring usage of each of the queues by a channel resource assignor to determine the urgency of data to be transmitted to each queue'"'"'s respective receiver in order to dynamically assign an optimum number of channel resources to a communication link between the transmitter and receiver.
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13. A method for allocating and deallocating channel resources from a limited number of channel resources used to transmit data from a base station transmitter within a network comprising a plurality of base station transmitters to a plurality of subscriber unit receivers, the method comprising the steps of:
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storing the data to be transmitted to a particular one of the subscriber unit receivers in a plurality of data queues, there being multiple queues associated with each receiver, and with each queue allocated to handle data traffic having a particular traffic type attribute, each one of the plurality of queues having an associated plurality of thresholds, each threshold associated with the level of data stored in that respective queue, the queue thresholds depending upon the round trip transfer time and coding rates;
accepting data at a transmit processor within the transmitter, the data arriving from the multiple queues for transmission to the particular receiver;
allocating a number of channel resources to the particular receiver; and
monitoring usage of each of the queues by a channel resource assignor to determine the urgency of data to be transmitted to each queue'"'"'s respective receiver in order to dynamically assign an optimum number of channel resources to a communication link between the transmitter and receiver.
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14. A system for wireless communication comprising:
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a base station transmitter within a network comprising a plurality of base station transmitters, the base station transmitter having a transmit processor and connected to a wired network;
a plurality of subscriber unit receivers operable for wireless communication with the base station transmitter, a plurality of data queues in the base station transmitter and operable to store data traffic to be transmitted to the subscriber unit receivers, each of the subscriber unit receivers associated with at least one of the data queues, and each of the data queues operable to handle data traffic having a particular traffic type attribute;
a plurality of wireless channels responsive to the transmit processor and operable to transmit data from the data queues to each of the subscriber units; and
a channel resource assignor in communication with the transmit processor and operable to assign the channels to the subscriber unit receivers, the channel resource assignor operable to monitor usage of each of the queues to determine an urgency factor indicative of the urgency of the data to be transmitted to the respective subscriber unit receiver of each of the queues, and further operable to determine an optimal number of channels to assign to communication to a particular subscriber unit receiver, the urgency determined from the data traffic corresponding to a plurality of the traffic type attributes include content type. - View Dependent Claims (15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26)
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27. A system for managing session queues comprising:
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a base station transmitter within a network comprising a plurality of base station transmitters and having a transmit processor;
a plurality of subscriber unit receivers operable for wireless communication with the base station transmitter;
a plurality of session queues in the base station transmitter and operable to store data traffic to be transmitted to the subscriber unit receivers, each of the subscriber unit receivers associated with a plurality of the session queues, the data traffic further comprising packets corresponding to a particular traffic type attribute;
a plurality of wireless channels responsive to the transmit processor and operable to transmit data from the session queues to each of the subscriber units via a transmit buffer; and
a channel resource assignor in communication with the transmit processor and operable to assign the channels to the subscriber unit receivers, the channel resource assignor operable to monitor usage of each of the queues to determine an urgency factor indicative of the urgency of the data to be transmitted to the respective subscriber unit receiver of each of the queues, and further operable to determine an optimal number of channels to assign to communication to a particular subscriber unit receiver, the,urgency determined from the data traffic corresponding to a plurality of the traffic type attributes include content type.
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28. A computer program product having computer program code for allocating and deallocating channel resources from a limited number of channel resources used to transmit data from a base station transmitter within a network comprising a plurality of base station transmitters to a plurality of subscriber unit receivers, comprising:
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computer program code for storing the data to be transmitted to a particular one of the subscriber unit receivers in a plurality of data queues, there being multiple queues associated with each receiver, and with each queue allocated to handle data traffic having a particular traffic type attribute;
computer program code for accepting data at a transmit processor within the transmitter, the data arriving from the multiple queues for transmission to the particular receiver;
computer program code for allocating a number of channel resources to the particular receiver; and
computer program code for monitoring usage of each of the queues by a channel resource assignor to determine the urgency of data to be transmitted to each queue'"'"'s respective receiver in order to dynamically assign an optimum number of channel resources to a communication link between the transmitter and receiver, the urgency determined from the data traffic corresponding to a plurality of the traffic type attributes.
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29. A system for managing session queues comprising:
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means for storing the data to be transmitted to a particular one of the subscriber unit receivers in a plurality of data queues, there being multiple queues associated with each receiver, and with each queue allocated to handle data traffic having a particular traffic type attribute;
means for accepting data at a transmit processor within the transmitter, the data arriving from the multiple queues for transmission to the particular receiver;
means for allocating a number of channel resources to the particular receiver; and
means for monitoring usage of each of the queues by a channel resource assignor to determine the urgency of data to be transmitted to each queue'"'"'s respective receiver in order to dynamically assign an optimum number of channel resources to a communication link between the transmitter and receiver, the urgency determined from the data traffic corresponding to a plurality of the attributes include content type.
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Specification