초록 ▼

A method for scheduling packet data transmissions in a wireless communication system wherein a per-user Priority Function (PF) is calculated based on the channel condition and throughput for each user. In one embodiment, the system supports retransmission of data packets and sub-packets, wherein the

A method for scheduling packet data transmissions in a wireless communication system wherein a per-user Priority Function (PF) is calculated based on the channel condition and throughput for each user. In one embodiment, the system supports retransmission of data packets and sub-packets, wherein the retransmission information is used to schedule data transmissions. In another embodiment, at each time interval the system updates the priority factor for the user having the highest priority factor in the previous time interval. The priority factors of the other users remain unchanged.

대표청구항 ▼

What is claimed is: 1. In a wireless communication system adapted for packet data transmissions, the system having a plurality of mobile stations, an apparatus comprising: means for determining an original priority factor for each of the plurality of mobile stations; means for scheduling transmissi

What is claimed is: 1. In a wireless communication system adapted for packet data transmissions, the system having a plurality of mobile stations, an apparatus comprising: means for determining an original priority factor for each of the plurality of mobile stations; means for scheduling transmissions to at least one of the plurality of mobile stations based on the original priority functions, wherein a first mobile station has a highest priority factor; means for transmitting to the first mobile station; means for determining an updated priority factor for the first mobile station; and means for scheduling transmissions to at least one of the plurality of mobile stations based on the updated priority factor for the first mobile station and the original priority functions of the other mobile stations. 2. The apparatus as in claim 1, wherein means for determining the updated priority factor for the first mobile station, comprise: means for determining an updated throughput value for the first mobile station; and means for calculating a priority function based on the updated throughput value. 3. The apparatus as in claim 1, wherein the updated throughput value is calculated as: description="In-line Formulae" end="lead"T(i)=αT(i-1)+(1-α)[ DRC],description="In-line Formulae" end="tail" wherein T is the throughput, a is a scale factor, and DRC is the payload of the transmitted information. 4. The apparatus as in claim 3, further comprising: means for determining an updated priority function for at least one other of the plurality of mobile stations, wherein the updated priority function is based on an updated throughput value given as: description="In-line Formulae" end="lead"T(i)=αT(i-1). description="In-line Formulae" end="tail" 5. The apparatus as in claim 1, wherein scheduling transmissions applies a proportional-fair algorithm. 6. In a wireless communication system adapted for packet data transmissions, an infrastructure element comprising: a priority factor calculation unit for determining an original priority factor for each of the plurality of mobile stations; a scheduling unit for scheduling transmissions to at least one of the plurality of mobile stations based on the original priority functions, wherein a first mobile station has a highest priority factor; transmit circuitry for transmitting to the first mobile station; an update unit for determining an updated priority factor for the first mobile station; and the scheduling unit for further scheduling transmissions to at least one of the plurality of mobile stations based on the updated priority factor for the first mobile station and the original priority functions of the other mobile stations. 7. In a wireless communication system adapted for packet data transmissions and supporting automatic retransmission of data packets, the system having a plurality of mobile stations, an apparatus comprising: means for receiving a rate request indicator from a first mobile station; means for transmitting a first data packet to the first mobile station, the first mobile station having a throughput value; means for updating the throughput value of the first mobile station using the rate request indicator; and means for receiving a negative acknowledge signal from the first mobile station and in response to the negative acknowledge signal retransmitting the first data packet. 8. The apparatus as in claim 7, further comprising: means for scheduling transmissions as a function of throughput values of the plurality of mobile stations. 9. The apparatus as in claim 8, wherein the data packets are transmitted over multiple transmission slots. 10. In a wireless communication system adapted for packet data transmissions and supporting automatic retransmission of data packets, the system having a plurality of mobile stations, an infrastructure element comprising: a priority factor calculation unit for receiving a rate request indicator from a first mobile station; transmit circuitry for transmitting a first data packet to first mobile station, the first mobile station having a throughput value; update throughput calculation unit for updating the throughput value of the first mobile station using the rate request indicator; a pool calculation unit for receiving a negative acknowledge signal from the first mobile station; and the transmit circuitry for further retransmitting the first data packet in response to the negative acknowledge signal. 11. In a wireless communication system adapted for packet data transmissions, a method for scheduling packet data transactions in a wireless communication system, comprising: determining a pool of users in the wireless communication system; calculating a priority function of at least a portion of the pool of users; scheduling a first set of users having pending data transactions from the portion of the pool of users; receiving rate request indicators from the portion of the pool of users; and updating priority functions of the first set of users in response to the rate request indicators. 12. A computer-readable medium including computer-executable instructions for performing a method for scheduling packet data transactions in a wireless communication system, the method comprising: determining a pool of users in the wireless communication system; calculating a priority function of at least a portion of the pool of users; scheduling a first set of users having pending data transactions from the portion of the pool of users; receiving rate request indicators from the portion of the pool of users; and updating priority functions of the first set of users in response to the rate request indicators.