Adaptive semi-static interference avoidance in cellular networks

What is claimed is: 1. A method of reusing airlink resources in a cellular network, the method comprising: receiving information at a base station controller relating to load levels at adjacent sectors in the cellular network; generating a reuse reference for a first sector of the adjacent sectors based on the load levels information, the reuse reference comprising airlink resources designated for forward link data transmission in the first sector and an order, determined based on computed interference metrics associated with the forward link data transmission in the adjacent sectors, in which the airlink resources are utilized for the forward link data transmission in the first sector; and sending the reuse reference from the base station controller to a first base station serving mobile devices in the first sector, wherein other of the adjacent sectors are served by one or more other base stations different from the first base station, wherein the reuse reference comprises a partition of the airlink resources and an indication of whether the partition of the airlink resources is a hard partition or a soft partition of the airlink resources, the hard partition indicating that the first base station must adhere to an allocation of the airlink resources specified in the reuse reference and the soft partition indicating that the first base station can alter the allocation of the airlink resources specified in the reuse reference based on demand, and wherein, for the soft partition, the first base station can autonomously alter the allocation of the airlink resources according to the order specified in the reuse reference to add or drop the airline resources responsive to changing load condition without informing the base station controller or the one or more other base stations. 2. The method of claim 1 , wherein the reuse reference specifies adding at least one carrier or time slot for forward link data transmission in the first sector in response to an increase in the load of the first sector. 3. The method of claim 1 , wherein the reuse reference specifies discontinuing use of at least one carrier or time slot for forward link data transmission in the first sector in response to decrease in the load of the first sector. 4. The method of claim 1 , wherein the reuse reference specifies adding or discontinuing use of at least one carrier or time slot for forward link data transmission in the first sector in response to a load level of sectors adjacent to the first sector. 5. The method of claim 1 , wherein generating the reuse reference comprises determining an effective bandwidth usage for each of the adjacent sectors. 6. The method of claim 5 , wherein the effective bandwidth usage comprises a proportion of expedited forwarding (EF) traffic at each of the adjacent sectors. 7. The method of claim 1 , wherein generating the reuse reference comprises determining a partial load performance of mobile devices in each sector of the adjacent sectors. 8. The method of claim 1 , wherein the interference metric is based on pilot strength information obtained from mobile devices in the adjacent sectors. 9. The method of claim 1 , wherein the reuse reference comprises at least one time slot reserved for forward link data transmission in the first sector and at least one time slot designated for forward link data transmission in the first sector in common with an adjacent sector. 10. The method of claim 1 , wherein the reuse reference indicates airlink resources selected from the group consisting of slots in a time division multiplexed carrier, a plurality of carriers having a same transmit power level, and a plurality of carriers having different transmit power levels. 11. The method of claim 1 , wherein the airlink resources comprise at least one time slot, carrier, or carrier transmit power level for forward link data transmission in the first sector. 12. The method of claim 1 , wherein the information received at the base station controller comprises an average scheduling delay at each sector in the adjacent sectors. 13. The method of claim 1 , wherein the information received at the base station controller relates to a number of non-empty transmit queues at each sector in the adjacent sectors. 14. The method of claim 1 , wherein the interference metrics are computed based on one or more of: energy-per-chip-to-total-received power ratio (Ec/Io) for one or more sector carriers, or pilot strength for the one or more sector carriers. 15. The method of claim 14 , wherein the interference metrics are computed according to the relationship: IF= x nss /x ss where IF is the computed interference metric, x nss is average Echo at non-serving sector carriers, and x ss is the average Echo at serving carriers. 16. The method of claim 1 , wherein a first group of devices are associated with respective signal strength values that do not exceed a pre-determined signal-to-noise-and-interference ratio (SINR), and a second group of devices are associated with the respective signal strength values that exceed the pre-determined SINR. 17. The method of claim 1 , wherein a first group of devices are located nearer to the first sector's edges than a second group devices, and the second group of devices are located nearer to the first sector's center than the first group of devices. 18. The method of claim 1 , wherein the mobile devices in the first sector are grouped into a first device group and a second device group based on signal quality levels determined for the mobile devices, and wherein the forward link data transmission for the mobile devices are scheduled so mobile devices in the first device group that are located near an edge of the first sector use sector-specific airlink resources designated for use in the first sector and not utilized in the other of the adjacent sectors served by the one or more other base stations, and mobile devices in the second device group that are located near a center of the first sector use common airlink resources shared with other sectors' mobile devices that are located near respective centers of the other of the adjacent sectors served by the one or more other base stations. 19. The method of claim 1 , wherein the first base station is associated with a plurality of sectors, and wherein the reuse reference comprises a sector-specific reuse pattern for each of the plurality of sectors associated with the first base station. 20. A base station controller, comprising: a load monitor configured to obtain sector load information for adjacent sectors in a cellular network; and a reuse reference generator coupled to the load monitor and configured to generate a reuse reference based on the sector load information, the reuse reference comprising airlink resources designated for forward data transmission use in each of the adjacent sectors and an order, determined based on computed interference metrics associated with the forward link data transmission in the adjacent sectors, in which the airlink resources are utilized for the forward link data transmission in the adjacent sectors, wherein the base station controller sends the reuse reference to base stations serving the adjacent sectors from time to time, wherein the adjacent sectors are served by one or more base stations different from a first base station serving mobile devices a first sector of the adjacent sectors, wherein the reuse reference comprises a partition of the airlink resources and an indication of whether the partition of the airlink resou