System and method for wireless link configuration

What is claimed is: 1. A method, comprising: receiving, by a relay node, a first instruction from a first controller to discontinue using a first set of wireless backhaul link resources between the relay node and the first controller; using, by the relay node in response to the first instruction, a second set of wireless backhaul link resources for a handoff procedure from the first controller to a second controller; receiving, by the relay node, a second instruction from the second controller to begin using a third set of wireless backhaul link resources allocated to the relay node for communication with the second controller, wherein the second set of wireless backhaul link resources comprises a set of wireless backhaul link resources common to the first set of wireless backhaul link resources and the third set of wireless backhaul link resources; and using, by the relay node in response to the second instruction, the third set of wireless backhaul link resources for communication between the relay node and the second controller. 2. The method of claim 1 , wherein the receiving the first instruction comprises receiving a handoff initialization message from the first controller. 3. The method of claim 1 , wherein the second set of wireless backhaul link resources comprises wireless backhaul link resources dedicated by both the first controller and the second controller. 4. The method of claim 1 , wherein the receiving the second instruction comprises receiving an allocation of the third set of wireless backhaul link resources from the second controller. 5. The method of claim 4 , further comprising: receiving, by the relay node from the second controller, a time value indicating a duration of a validity of the third set of wireless backhaul link resources. 6. The method of claim 5 , further comprising: determining, by the relay node, that the duration has elapsed since the relay node receives an allocation of the third set of wireless backhaul link resources; and obtaining, by the relay node in response to the determination, a new allocation of the third set of wireless backhaul link resources for communication between the relay node with the second controller. 7. The method of claim 1 , further comprising: reducing, by the relay node, the number of Hybrid Automatic Repeat Requested (HARQ) processes from M to N during the handoff process, M representing the number of HARQ processes used prior to the handoff process, N being less than M and representing the number of HARQ processes used during the handoff process. 8. A relay node, comprising: a processor; and a memory coupled to the processor and configured to store program instructions that, when executed by the processor, cause the relay node to perform the operations: receiving a first instruction from a first controller to discontinue using a first set of wireless backhaul link resources between the relay node and the first controller; using, in response to the first instruction, a second set of wireless backhaul link resources for a handoff procedure from the first controller to a second controller; receiving a second instruction from the second controller to begin using a third set of wireless backhaul link resources allocated to the relay node for communication with the second controller, wherein the second set of wireless backhaul link resources comprises a set of wireless backhaul link resources common to the first set of wireless backhaul link resources and the third set of wireless backhaul link resources; and using, in response to the second instruction, the third set of wireless backhaul link resources for communication between the relay node and the second controller. 9. The relay node of claim 8 , wherein the receiving the first instruction comprises: receiving a handoff initialization message from the first controller. 10. The relay node of claim 8 , wherein the second set of wireless backhaul link resources comprises wireless backhaul link resources dedicated by both the first controller and the second controller. 11. The relay node of claim 8 , wherein the receiving the second instruction comprises: receiving an allocation of the third set of wireless backhaul link resources from the second controller. 12. The relay node of claim 11 , wherein the program instructions, when executed by the processor, further cause the relay node to perform the operations: receiving, from the second controller, a time value indicating a duration of a validity of the third set of wireless backhaul link resources. 13. The relay node of claim 12 , wherein the program instructions, when executed by the processor, further cause the relay node to perform the operations: determining that the duration has elapsed since the relay node receives an allocation of the third set of wireless backhaul link resources; and obtaining, in response to the determination, a new allocation of the third set of wireless backhaul link resources for communication between the relay node with the second controller. 14. The relay node of claim 8 , wherein the program instructions, when executed by the processor, further cause the relay node to perform the operations: reducing the number of Hybrid Automatic Repeat Requested (HARQ) processes from M to N during the handoff process, M representing the number of HARQ processes used prior to the handoff process, N being less than M and representing the number of HARQ processes used during the handoff process.