Time and frequency acquisition and tracking for OFDMA wireless systems

What is claimed is: 1. A method for wireless communication by a user equipment (UE) for communicating with a serving base station in presence of interference from an interfering base station, the method comprising: acquiring by the UE, a reference signal from the interfering base station, the interfering base station being stronger than the serving base station; obtaining by the UE, a first timing reference from the acquired reference signal of the interfering base station; tracking the first timing from the interfering base station in place of tracking a carrier timing of the serving base station; acquiring by the UE, a second reference signal from the serving base station; obtaining by the UE, a second timing reference from the second reference signal; generating by the UE, an offset timing difference between the serving base station and the interfering base station using the first and second timing references; and communicating by the UE, with the serving base station by processing signals received from the serving base station using the tracked first timing from the interfering base station and the offset timing difference. 2. The method of claim 1 , wherein the interfering and serving base stations are evolved NodeBs (eNBs) in a long term evolution (LTE) network. 3. A user equipment (UE) for wireless communication with a serving-base station in presence of interference from an interfering base station, the UE comprising: -means for acquiring a reference signal from the interfering base station, the interfering base-station being stronger than the serving base station; means for obtaining a timing reference from the acquired reference signal of the interfering-base station; means for tracking the first timing from the interfering base station in place of tracking a carrier timing of the serving base station; means for acquiring by the UE, a second reference signal from the serving base station; means for obtaining by the UE, a second timing reference from the second reference signal; means for generating by the UE, a timing offset difference between the serving base station and the interfering base station using the first and second timing references; means for communicating with the serving base station by processing signals received from the serving base station using the tracked first timing from the interfering base station and the offset timing difference. 4. The UE of claim 3 , wherein the interfering and serving base stations are evolved NodeBs (eNBs) in a long term evolution (LTE) network. 5. A non-transitory computer-readable medium storing computer executable code for wireless communication by a user equipment (UE) for communicating with a serving base station in presence of interference from an interfering base station, comprising code for: acquiring a reference signal from the interfering base station, the interfering base station being stronger than the serving base station; obtaining a timing reference from the acquired reference signal of the interfering base station; tracking the first timing from the interfering base station in place of tracking a carrier timing of the serving base station; acquiring by the UE, a second reference signal from the serving base station; obtaining by the UE, a second timing reference from the second reference signal; generating by the UE, a timing offset difference between the serving base station and the interfering base station using the first and second timing references; and communicating with the serving base station by processing signals received from the serving base station using tracked first timing from the interfering base station and the offset timing difference. 6. A user equipment (UE) operable for wireless communication with a serving base station in presence of interference from an interfering base station, the UE comprising: a memory; and at least one processor coupled to the memory, wherein the at least one processor is configured to: acquire a reference signal from the interfering base station, the interfering base station being stronger than the serving base station; obtain a timing reference from the acquired reference signal of the interfering base station; track the first timing from the interfering base station in place of tracking a carrier timing of the serving base station; acquire by the UE, a second reference signal from the serving base station; obtain by the UE, a second timing reference from the second reference signal; generate by the UE, a timing offset difference between the serving base station and the interfering base station using the first and second timing references communicate with the serving base station by processing signals received from the serving base station using tracked first timing from the interfering base station and the offset timing difference. 7. A method for wireless communication by a user equipment (UE) for communicating with a serving base station in presence of interference from an interfering base station having a stronger signal than the serving base station, the method comprising: acquiring by the UE, a first reference signal from the interfering base station; obtaining by the UE, a first frequency reference from the first reference signal; tracking the first frequency from the interfering base station in place of tracking a carrier frequency of the serving base station; acquiring by the UE, a second reference signal from the serving base station; obtaining by the UE, a second frequency reference from the second reference signal; generating by the UE, a frequency offset difference between the serving base station and the interfering base station using the first and second frequency references; communicate with the serving base station by processing signals from the serving base station using the tracked first frequency from the interfering base station and the frequency offset difference. 8. The method of claim 7 , wherein the interfering and serving base stations are evolved NodeBs (eNBs) in a long term evolution (LTE) network. 9. A user equipment (UE) for wireless communication with a serving base station in presence of interference from a interfering base station having a stronger signal than the serving base station, the UE comprising: means for acquiring a first reference signal from the interfering base station; means for obtaining a first frequency reference from the first reference signal; means for tracking the first frequency from the interfering base station in place of tracking a carrier frequency of the serving base station; means for acquiring a second reference signal from the serving base station; means for obtaining a second frequency reference from the second reference signal; generating a frequency offset difference between the serving base station and the interfering base station using the first and second frequency references; and means for communicate with the serving base station by processing signals from the serving base station using the tracked first frequency from the interfering base station and the frequency offset difference. 10. The UE of claim 9 , wherein the interfering and serving base stations are evolved NodeBs (eNBs) in a long term evolution (LTE) network. 11. A non-transitory computer-readable medium storing computer executable code for wireless communication by a user equipment (UE) for communicating with a serving base station in presence of interference from a interfering base station having a stronger signal than the serving base station, comprising code for: acquiring a first reference signal from the interfering base station; obtaining a first frequency reference from the first reference signal;