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A method and apparatus to dynamically control selectable vocoder rates in a CDMA network to optimally improve forward and reverse link capacity as necessary. To improve capacity, a number of vocoder rates are used, each requiring a different average data rate and providing a different level of voice

A method and apparatus to dynamically control selectable vocoder rates in a CDMA network to optimally improve forward and reverse link capacity as necessary. To improve capacity, a number of vocoder rates are used, each requiring a different average data rate and providing a different level of voice quality. Vocoder rates are reduced to lower sector average output power thereby improving forward and reverse link capacity. Forward and reverse link loading are compared to established thresholds that, if exceeded, would trigger a forward link and a reverse link vocoder rate adjustment as necessary to improve network capacity. The forward link vocoder rate and reverse link vocoder rate may be set independently or the reverse link vocoder rate may be set as a function of the forward link vocoder rate to maintain a link balance.

대표청구항 ▼

What is claimed is: 1. A method, in a cellular network having a base station controller (BSC), for adjusting vocoder rates in a cellular communication network including a plurality of cells, each of the plurality of cells having a plurality of cell sectors, the method comprising: determining averag

What is claimed is: 1. A method, in a cellular network having a base station controller (BSC), for adjusting vocoder rates in a cellular communication network including a plurality of cells, each of the plurality of cells having a plurality of cell sectors, the method comprising: determining average sector loading for the plurality of cell sectors; determining whether a loading threshold value has been met or exceeded wherein the loading threshold value is defined in relation to a quality of service rating specified in a subscriber profile; determining for a forward link from a base station (BTS) whether a forward link vocoder rate from the BTS to a mobile station should be changed and, if so, what the changed forward link vocoder rate should be by determining, if the mobile station is in handoff, which of a plurality of cell sectors that are in handoff with the mobile station has the highest sector loading wherein the forward link vocoder rate is a function of the loading of the cell sector having the highest sector loading; and wherein the step of determining whether to change the forward link vocoder rate to the mobile station includes: evaluating whether the mobile station is establishing a call, is in handoff, or is in an existing call, evaluating the mobile station's location relative to the BTS wherein the vocoder rate is not adjusted for mobile stations closer to the base station than to a perimeter of the cell, evaluating the amount of time since the last time the vocoder rate was changed for the mobile station and evaluating the mobile station's subscriber profile for a quality of service rating. 2. The method of claim 1 further including determining, for a reverse link, whether a reverse link vocoder rate should be changed and, if so, what the changed reverse link vocoder rate should be. 3. The method of claim 1 further including changing the reverse link vocoder rate independently of the forward link vocoder rate based, at least in part, on a BTS determined rise-over-thermal value. 4. The method of claim 1 further including changing the reverse link vocoder rate as a function of the forward link vocoder rate. 5. The method of claim 4 wherein, if the forward link vocoder rate is reduced from a first rate to a second rate, the reverse link vocoder rate is reduced from the first rate to a third rate wherein the third rate is lower than the second rate. 6. The method of claim 1 wherein the forward link vocoder rate is reduced if the mobile station is relatively proximate to a cell outer boundary. 7. The method of claim 1 wherein the forward link vocoder rate is not reduced for a mobile station if the mobile station is relatively proximate to the BTS. 8. The method of claim 1 wherein the step of determining whether the loading threshold value has been met or exceeded includes calculating an average sector loading over a specified period of time using a sliding window structure that averages a constant number of loading values in a shift register type architecture. 9. The method of claim 1 wherein the step of determining whether to change the forward link vocoder rate to the mobile station includes evaluating the mobile station's subscriber profile wherein the loading threshold value is defined in relation to a quality of service rating specified in the subscriber profile. 10. The method of claim 1 further including evaluating whether a specified amount of time has elapsed since a vocoder rate for the mobile station was last changed. 11. A method, in a base station controller (BSC), for adjusting vocoder rates in a cellular communication network including a plurality of cells, each of the plurality of cells having a plurality of cell sectors, the method comprising: determining sector loading for the plurality of cell sectors; determining whether a loading threshold value has been met or exceeded wherein the loading threshold value is defined in relation to a quality of service rating specified in a subscriber profile; determining whether a forward link vocoder rate from a BTS should be changed; selecting a group of mobile stations for which the forward link vocoder rate should be changed wherein the group of mobile stations consist of mobile stations that are closer to a perimeter of the cell than to a base station wherein the group of mobile stations comprises mobile stations whose vocoder rate has not been changed for a specified amount of time; determining what the changed forward link vocoder rate should be by determining the forward link vocoder rate for each mobile station within the selected group of mobile stations wherein, if the mobile station is in handoff, evaluating the sector loading within each cell sector of the plurality of cell sectors that are in handoff with the mobile station, and selecting the forward link vocoder rate as a function of the loading of the cell sector having the highest sector loading; and wherein the group of mobile stations comprises mobile stations that are establishing a call, mobile stations that are in handoff, and mobile stations that are in an existing call. 12. The method of claim 11 further including, for the selected group of mobile stations, evaluating each mobile station's location relative to the BTS and only reducing the forward link vocoder rate for those mobile stations that are not within a specified distance of the BTS. 13. A base station controller (BSC), comprising: a bus; a processor coupled to communicate over the bus; a network port for coupling the BSC to a wireless communication network to enable the BSC to communicate with a base transceiver station (BTS); and a memory coupled to the bus, the memory including computer instructions that define logic for: calculating a loading metric; calculating a loading threshold for all traffic in a cell sector wherein the loading threshold value is defined in relation to a quality of service rating specified in a subscriber profile; determining whether the calculated loading metric exceeds the calculated blocking threshold; and assigning a new forward link vocoder rate to at least one mobile station if the mobile station closer to a perimeter of a cell served by the base station than to the base station and if a specified period of time has elapsed since the vocoder rate was last changed and determining what the changed forward link vocoder rate should be including determining the forward link vocoder rate for each mobile station within the selected group of mobile stations wherein, if the mobile station is in handoff, evaluating the sector loading within each cell sector of the plurality of cell sectors that are in handoff with the mobile station, and selecting the forward link vocoder rate as a function of the loading of the cell sector having the highest sector loading. 14. The BSC of claim 13, wherein the computer instructions further define logic for determining a sliding window length. 15. The BSC of claim 13, wherein the loading metric is determined, in part, based on the sliding window average. 16. The BSC of claim 13, wherein the computer instructions further define logic for assigning a forward link vocoder rate if the loading metric is less than or equal to the blocking threshold, and assigning a reduced forward link vocoder rate if the loading metric is greater than the blocking threshold. 17. The BSC of claim 13, wherein the computer instructions further define logic for assigning a reverse link vocoder rate that is equal to or less than the forward link vocoder rate. 18. A method, in a cellular communication network including a plurality of cells, each of the plurality of cells having a plurality of sectors, for dynamically adjusting voice quality between a base station and a mobile station in a cell served by the base station, the method comprising: defining a plurality of loading threshold values that correspond to quality of service ratings; determining that at least one of the plurality of loading threshold values has been met or exceeded; determining that a specified amount of time has elapsed since a vocoder rate has last changed to dynamically adjust voice quality; determining that the vocoder rate should be changed only if the specified amount of time has elapsed since the vocoder rate was last changed and only if the mobile station is closer to a perimeter of the cell than to the base station; and determining a new vocoder rate and changing the vocoder rate to the new vocoder rate and determining the forward link vocoder rate for each mobile station within a selected group of mobile stations wherein, if the mobile station is in handoff, evaluating the sector loading within each cell sector of the plurality of cell sectors that are in handoff with the mobile station, and selecting the forward link vocoder rate as a function of the loading of the cell sector having the highest sector loading. 19. The method of claim 18 wherein the plurality of loading threshold values further includes at least one High Loading Threshold (HLT), the HLT defining a level at which the vocoder rate is downgraded to reduce voice quality. 20. The method of claim 18 wherein the plurality of loading threshold values further includes at least one Low Loading Threshold (LLT) , the LLT defining a level at which the vocoder rate is upgraded to improve voice quality. 21. The method of claim 18 wherein the specified period of time is adequately long to filter out responses to transient loading values to reduce excessive vocoder rate changes caused by the transient loading values. 22. The method of claim 18 wherein the cellular communications network is one of a CDMA network and a UMTS based network.