1. A method performed by a user equipment unit, the method comprising:
identifying a set of network cells operable to conduct communication with inter-site coordination;
measuring an amount of received power from one or more network cells not associated with the identified set of network cells;
reporting the measured amount of received power to one or more network cells in the identified set of network cells; and
receiving communications from at least a subset of the identified set of network cells, the subset coordinated according to a coordination scheme selected at least in part based on the reported measured amount of received power.', 'identifying a set of network cells operable to conduct communication with inter-site coordination;', 'measuring an amount of received power from one or more network cells not associated with the identified set of network cells;', 'reporting the measured amount of received power to one or more network cells in the identified set of network cells; and', 'receiving communications from at least a subset of the identified set of network cells, the subset coordinated according to a coordination scheme selected at least in part based on the reported measured amount of received power.

2. The method of claim 1, further comprising:
observing channel quality associated with channels corresponding to respective network cells in the identified set of network cells;
providing one or more reports of observed channel quality to respectively corresponding network cells; and
receiving the communications from the at least a subset of the set of network cells, the subset coordinated according to the coordination scheme selected at least in part on the provided one or more reports.', 'observing channel quality associated with channels corresponding to respective network cells in the identified set of network cells;', 'providing one or more reports of observed channel quality to respectively corresponding network cells; and', 'receiving the communications from the at least a subset of the set of network cells, the subset coordinated according to the coordination scheme selected at least in part on the provided one or more reports.

3. The method of claim 1, wherein:
the measuring comprises identifying a primary interfering network cell; and
the reporting comprises reporting an identity of the primary interfering network cell to the one or more network cells in the identified set of network cells.', 'the measuring comprises identifying a primary interfering network cell; and', 'the reporting comprises reporting an identity of the primary interfering network cell to the one or more network cells in the identified set of network cells.

4. The method of claim 1, wherein:
the method further comprises identifying one or more interfering network cells respectively comprising a plurality of transmit antennas;
the measuring comprises computing a correlation between respective transmit antennas of the one or more interfering network cells; and
the reporting comprises reporting information relating to the computed correlation between the respective transmit antennas of the one or more interfering network cells to one or more network cells in the identified set of network cells.', 'the method further comprises identifying one or more interfering network cells respectively comprising a plurality of transmit antennas;', 'the measuring comprises computing a correlation between respective transmit antennas of the one or more interfering network cells; and', 'the reporting comprises reporting information relating to the computed correlation between the respective transmit antennas of the one or more interfering network cells to one or more network cells in the identified set of network cells.

5. The method of claim 4, wherein the one or more interfering network cells comprise a dominant interfering network cell.

6. The method of claim 4, wherein the reporting further comprises:
determining an amount of interference nulling that is employable relative to the one or more interfering network cells based on the computed correlation between the respective transmit antennas of the one or more interfering network cells;
estimating a projected rate for communication based on application of the determined amount of employable interference nulling; and
reporting the projected rate to one or more network cells in the identified set of network cells.', 'determining an amount of interference nulling that is employable relative to the one or more interfering network cells based on the computed correlation between the respective transmit antennas of the one or more interfering network cells;', 'estimating a projected rate for communication based on application of the determined amount of employable interference nulling; and', 'reporting the projected rate to one or more network cells in the identified set of network cells.

7. The method of claim 4, wherein the reporting further comprises:
identifying a plurality of associated receive antennas;
determining an amount of receiver interference nulling that is employable relative to the one or more interfering network cells via the plurality of associated receive antennas; and
reporting the determined amount of receiver interference nulling to the one or more network cells in the identified set of network cells.', 'identifying a plurality of associated receive antennas;', 'determining an amount of receiver interference nulling that is employable relative to the one or more interfering network cells via the plurality of associated receive antennas; and', 'reporting the determined amount of receiver interference nulling to the one or more network cells in the identified set of network cells.

8. The method of claim 7, wherein the reporting the determined amount of receiver interference nulling comprises:
estimating a projected rate for communication based on application of the determined amount of receiver interference nulling; and
reporting the projected rate to the one or more network cells in the identified set of network cells.', 'estimating a projected rate for communication based on application of the determined amount of receiver interference nulling; and', 'reporting the projected rate to the one or more network cells in the identified set of network cells.

9. The method of claim 1, wherein the reporting comprises:
estimating a projected rate for communication based on the measured amount of received power; and
reporting the projected rate to the one or more network cells in the identified set of network cells.', 'estimating a projected rate for communication based on the measured amount of received power; and', 'reporting the projected rate to the one or more network cells in the identified set of network cells

10. The method of claim 1, wherein the reporting comprises reporting a measured amount of received power to the one or more network cells using Layer 1 (L1) signaling

11. The method of claim 1, wherein the reporting comprises reporting a measured amount of received power to the one or more network cells using Layer 3 (L3) signaling

12. The method of claim 1, wherein the measuring comprises measuring an amount of received power associated with one or more of reference signals or synchronization signals broadcasted from the one or more network cells not associated with the identified set of network cells

13. The method of claim 12, wherein the measuring further comprises:
identifying a loading indicator within at least one of a reference signal or synchronization signal broadcasted from a network cell;
determining loading of the network cell based at least in part on the loading indicator; and
estimating interference caused by the network cell as a function of loading of the network cell.', 'identifying a loading indicator within at least one of a reference signal or synchronization signal broadcasted from a network cell;', 'determining loading of the network cell based at least in part on the loading indicator; and', 'estimating interference caused by the network cell as a function of loading of the network cell.14. The method of claim 13, wherein the identifying a loading indicator comprises identifying a loading indicator within a preamble of the reference signal or the synchronization signal.15. The method of claim 1, wherein the measuring comprises measuring an amount of received power associated with at least one of reference signaling, a primary synchronization signal (PSS), a secondary synchronization signal (SSS), or Low Reuse Preamble (LRP) signaling communicated by the one or more network cells not associated with the identified set of network cells.16. A wireless communications apparatus, comprising:
a memory that stores data relating to a set of serving network cells operable to conduct communication with inter-site coordination;
a processor configured to measure an amount of received power from one or more network cells not associated with the set of serving network cells and to report a measured amount of received power to one or more serving network cells; and
a receiver configured to receive communications from at least a subset of the set of serving network cells, the subset coordinated according to a coordination scheme selected at least in part based on the reported measured amount of received power.', 'a memory that stores data relating to a set of serving network cells operable to conduct communication with inter-site coordination;', 'a processor configured to measure an amount of received power from one or more network cells not associated with the set of serving network cells and to report a measured amount of received power to one or more serving network cells; and', 'a receiver configured to receive communications from at least a subset of the set of serving network cells, the subset coordinated according to a coordination scheme selected at least in part based on the reported measured amount of received power.17. The wireless communications apparatus of claim 16, wherein the processor is further configured to analyze quality of channels corresponding to at least one of the one or more serving network cells and to provide one or more reports of analyzed channel quality to the at least one of the one or more serving network cells.18. The wireless communications apparatus of claim 16, wherein:
the memory further stores data relating to one or more interfering network cells, the one or more interfering network cells respectively comprising a plurality of transmit antennas; and
the processor is further configured to compute correlation between respective transmit antennas of the one or more interfering network cells and to report respective computed correlations between transmit antennas of respective interfering network cells to the one or more serving network cells.', 'the memory further stores data relating to one or more interfering network cells, the one or more interfering network cells respectively comprising a plurality of transmit antennas; and', 'the processor is further configured to compute correlation between respective transmit antennas of the one or more interfering network cells and to report respective computed correlations between transmit antennas of respective interfering network cells to the one or more serving network cells.19. The wireless communications apparatus of claim 18, wherein the one or more interfering network cells comprise a dominant interfering network cell.

20. The wireless communications apparatus of claim 18, wherein the processor is further configured to determine an amount of interference nulling that is employable relative to the one or more interfering network cells based on the respective computed correlations, to estimate a projected rate for communication associated with application of the determined amount of employable interference nulling, and to report the projected rate to the one or more serving network cells.

21. The wireless communications apparatus of claim 18, wherein:
the memory further stores data relating to a plurality of associated receive antennas; and
the processor is further configured to determine an amount of receiver interference nulling that is employable relative to one or more interfering network cells via the plurality of associated receive antennas and to report the determined amount of receiver interference nulling to the one or more serving network cells.', 'the memory further stores data relating to a plurality of associated receive antennas; and', 'the processor is further configured to determine an amount of receiver interference nulling that is employable relative to one or more interfering network cells via the plurality of associated receive antennas and to report the determined amount of receiver interference nulling to the one or more serving network cells.

22. The wireless communications apparatus of claim 21, wherein the processor is further configured to estimate a projected communication rate based on application of the determined amount of receiver interference nulling and to report the determined amount of receiver interference nulling implicitly at least in part by reporting the projected communication rate to the one or more serving network cells.

23. The wireless communications apparatus of claim 16, wherein the processor is further configured to report a measured amount of received power to the one or more serving network cells using at least one of Layer 1 (L1) signaling or Layer 3 (L3) signaling.

24. The wireless communications apparatus of claim 16, wherein the processor is further configured to measure an amount of received power from a network cell not associated with the set of serving network cells based on at least one of reference signals or synchronization signals broadcasted from the network cell.

25. The wireless communications apparatus of claim 24, wherein the processor is further configured to identify a loading indicator provided within at least one of a reference signal or a synchronization signal broadcasted by a network cell, to determine loading of the network cell according to the loading indicator, and to estimate interference caused by the network cell as a function of loading of the network cell.

26. The wireless communications apparatus of claim 24, wherein the loading indicator is provided within a preamble of the reference signal or the synchronization signal.

27. The wireless communications apparatus of claim 16, wherein the processor is further configured to measure an amount of received power from a network cell based at least in part on at least one of reference signaling, a primary synchronization signal (PSS), a secondary synchronization signal (SSS), or Low Reuse Preamble (LRP) signaling communicated by the network cell and detected by the wireless communications apparatus.

28. An apparatus, comprising:
means for identifying a set of network cells operable to perform at least one of uplink communication or downlink communication using inter-site coordination;
means for reporting an amount of received power corresponding to one or more network cells not associated with the set of identified network cells; and
means for receiving communications from at least a subset of the identified set of network cells, the subset coordinated according to a coordination scheme selected at least in part based on the reported measured amount of received power.', 'means for identifying a set of network cells operable to perform at least one of uplink communication or downlink communication using inter-site coordination;', 'means for reporting an amount of received power corresponding to one or more network cells not associated with the set of identified network cells; and', 'means for receiving communications from at least a subset of the identified set of network cells, the subset coordinated according to a coordination scheme selected at least in part based on the reported measured amount of received power.

29. The apparatus of claim 28, further comprising:
means for observing channel quality associated with channels corresponding to at least one of the identified set of network cells; and
means for providing one or more reports of observed channel quality to at least one of the identified set of network cells.', 'means for observing channel quality associated with channels corresponding to at least one of the identified set of network cells; and', 'means for providing one or more reports of observed channel quality to at least one of the identified set of network cells.

30. The apparatus of claim 28, wherein:
the apparatus further comprises means for identifying one or more interfering network cells having a plurality of transmit antennas; and
the means for reporting comprises means for reporting correlations between respective transmit antennas of the one or more interfering network cells to one or more of the identified network cells.', 'the apparatus further comprises means for identifying one or more interfering network cells having a plurality of transmit antennas; and', 'the means for reporting comprises means for reporting correlations between respective transmit antennas of the one or more interfering network cells to one or more of the identified network cells.

31. The apparatus of claim 30, wherein the means for reporting further comprises:
means for determining an employable amount of interference nulling relative to the one or more interfering network cells based on the correlations between transmit antennas of the one or more interfering network cells;
means for estimating a projected communication rate associated with application of the employable amount of interference nulling; and
means for reporting the projected communication rate to one or more of the identified network cells.', 'means for determining an employable amount of interference nulling relative to the one or more interfering network cells based on the correlations between transmit antennas of the one or more interfering network cells;', 'means for estimating a projected communication rate associated with application of the employable amount of interference nulling; and', 'means for reporting the projected communication rate to one or more of the identified network cells.

32. The apparatus of claim 30, wherein the means for reporting further comprises:
means for identifying a plurality of associated receive antennas;
means for determining an employable amount of receiver interference nulling relative to the one or more interfering network cells via the plurality of associated receive antennas;
means for estimating a projected communication rate associated with application of the determined amount of receiver interference nulling; and
means for reporting the projected communication rate to one or more of the identified network cells.', 'means for identifying a plurality of associated receive antennas;', 'means for determining an employable amount of receiver interference nulling relative to the one or more interfering network cells via the plurality of associated receive antennas;', 'means for estimating a projected communication rate associated with application of the determined amount of receiver interference nulling; and', 'means for reporting the projected communication rate to one or more of the identified network cells.

33. The apparatus of claim 28, wherein the means for reporting comprises means for providing one or more reports to an associated network cell using at least one of Layer 1 (L1) signaling or Layer 3 (L3) signaling.

34. The apparatus of claim 28, further comprising means for measuring an amount of received power corresponding to a network cell based on at least one of reference signals or synchronization signals broadcasted from the network cell.

35. The apparatus of claim 34, wherein the means for measuring comprises:
means for identifying a loading indicator within at least one of a reference signal or a synchronization signal broadcasted from the network cell;
means for determining loading of the network cell based on the loading indicator; and
means for estimating interference caused by the network cell as a function of loading of the network cell.', 'means for identifying a loading indicator within at least one of a reference signal or a synchronization signal broadcasted from the network cell;', 'means for determining loading of the network cell based on the loading indicator; and', 'means for estimating interference caused by the network cell as a function of loading of the network cell.

36. The apparatus of claim 34, wherein the means for measuring comprises means for measuring an amount of received power corresponding to a network cell based on at least one of reference signaling, a primary synchronization signal (PSS), a secondary synchronization signal (SSS), or Low Reuse Preamble (LRP) signaling communicated by the network cell.

37. A computer program product, comprising:
a non-transitory computer-readable medium, comprising:
code for causing a computer to identify a set of network cells operable to perform at least one of uplink communication or downlink communication using inter-site coordination; and
code for causing a computer to report an amount of received power corresponding to one or more network cells not associated with the set of identified network cells; and
code for causing a computer to receive communications from at least a subset of the identified set of network cells, the subset coordinated according to a coordination scheme selected at least in part based on the reported measured amount of received power.', 'a non-transitory computer-readable medium, comprising:', 'code for causing a computer to identify a set of network cells operable to perform at least one of uplink communication or downlink communication using inter-site coordination; and', 'code for causing a computer to report an amount of received power corresponding to one or more network cells not associated with the set of identified network cells; and', 'code for causing a computer to receive communications from at least a subset of the identified set of network cells, the subset coordinated according to a coordination scheme selected at least in part based on the reported measured amount of received power.

38. The computer program product of claim 37, wherein the non-transitory computer-readable medium further comprises:
code for causing a computer to observe channel quality associated with channels corresponding to at least one of the identified network cells; and
code for causing a computer to provide one or more reports of observed channel quality to at least one of the identified network cells.', 'code for causing a computer to observe channel quality associated with channels corresponding to at least one of the identified network cells; and', 'code for causing a computer to provide one or more reports of observed channel quality to at least one of the identified network cells.

39. The computer program product of claim 37, wherein:
the non-transitory computer-readable medium further comprises code for causing a computer to identify one or more interfering network cells having a plurality of transmit antennas; and
the code for causing a computer to report comprises code for causing a computer to report correlation between respective transmit antennas of the one or more interfering network cells to one or more of the identified network cells.', 'the non-transitory computer-readable medium further comprises code for causing a computer to identify one or more interfering network cells having a plurality of transmit antennas; and', 'the code for causing a computer to report comprises code for causing a computer to report correlation between respective transmit antennas of the one or more interfering network cells to one or more of the identified network cells.

40. The computer program product of claim 37, wherein the code for causing a computer to report comprises code for causing a computer to provide one or more reports to one or more of the identified network cells using at least one of Layer 1 (L1) signaling or Layer 3 (L3) signaling.

41. The computer program product of claim 37, wherein the non-transitory computer-readable medium further comprises code for causing a computer to measure an amount of received power corresponding to a network cell based on at least one of reference signals or synchronization signals broadcasted from the network cell.

42. The computer program product of claim 41, wherein the code for causing a computer to measure comprises:
code for causing a computer to determine loading of the network cell based at least in part on a loading indicator provided within a reference signal or a synchronization signal broadcasted from the network cell; and
code for causing a computer to estimate interference caused by the network cell as a function of loading of the network cell.', 'code for causing a computer to determine loading of the network cell based at least in part on a loading indicator provided within a reference signal or a synchronization signal broadcasted from the network cell; and', 'code for causing a computer to estimate interference caused by the network cell as a function of loading of the network cell.

43. The computer program product of claim 41, wherein the code for causing a computer to measure comprises code for causing a computer to measure an amount of received power corresponding to a network cell based on at least one of reference signaling, a primary synchronization signal (PSS), a secondary synchronization signal (SSS), or Low Reuse Preamble (LRP) signaling communicated by the network cell.

44. A method performed by a network cell of a set of network cells operable to conduct communication using inter-site coordination with associated user equipment units, the method comprising:
defining an interference reporting schedule for one or more of the associated user equipment unit;
scheduling respective null pilot intervals within the interference reporting schedule;
conducting limited transmission upon occurrence of a scheduled null pilot interval within the interference reporting schedule;
receiving interference feedback from the one or more associated user equipment units subsequent to occurrence of a null pilot; and
selecting a coordination scheme to be utilized across the set of network cells for communication with at least one of the one or more associated user equipment units based at least in part on the received interference feedback.', 'defining an interference reporting schedule for one or more of the associated user equipment unit;', 'scheduling respective null pilot intervals within the interference reporting schedule;', 'conducting limited transmission upon occurrence of a scheduled null pilot interval within the interference reporting schedule;', 'receiving interference feedback from the one or more associated user equipment units subsequent to occurrence of a null pilot; and', 'selecting a coordination scheme to be utilized across the set of network cells for communication with at least one of the one or more associated user equipment units based at least in part on the received interference feedback.

45. The method of claim 44, wherein the conducting limited transmission comprises silencing transmission upon occurrence of a scheduled null pilot interval.

46. The method of claim 44, wherein the conducting limited transmission comprises reducing transmit power by a predefined power backoff value upon occurrence of a scheduled null pilot interval.

47. The method of claim 44, further comprising:
receiving one or more reports of observed channel quality from the one or more associated user equipment units; and
selecting the coordination scheme to be utilized across respective network cells for communication with the at least one of the one or more associated user equipment units based at least in part on the one or more received reports.', 'receiving one or more reports of observed channel quality from the one or more associated user equipment units; and', 'selecting the coordination scheme to be utilized across respective network cells for communication with the at least one of the one or more associated user equipment units based at least in part on the one or more received reports.

48. A wireless communications apparatus of a network cell, the network cell operable to conduct communication using inter-site coordination across a set of network cells with one or more associated user equipment units, comprising:
a memory that stores data relating to the one or more associated user equipment units and an interference reporting schedule associated with the one or more user equipment units; and
a processor configured to define one or more null pilot intervals within the interference reporting schedule such that limiting is performed for communication occurring substantially simultaneously with the respective null pilot intervals, receive interference feedback from the one or more user equipment units subsequent to occurrence of a null pilot, and select a coordination scheme to be utilized across the set of network cells for communication with at least one of the one or more associated user equipment units based at least in part on the received interference feedback.', 'a memory that stores data relating to the one or more associated user equipment units and an interference reporting schedule associated with the one or more user equipment units; and', 'a processor configured to define one or more null pilot intervals within the interference reporting schedule such that limiting is performed for communication occurring substantially simultaneously with the respective null pilot intervals, receive interference feedback from the one or more user equipment units subsequent to occurrence of a null pilot, and select a coordination scheme to be utilized across the set of network cells for communication with at least one of the one or more associated user equipment units based at least in part on the received interference feedback.

49. The wireless communications apparatus of claim 48, wherein the processor is further configured to silence respective transmissions occurring substantially simultaneously with the respective null pilot intervals.

50. The wireless communications apparatus of claim 48, wherein the processor is further configured to reduce transmit power of respective transmissions occurring substantially simultaneously with the respective null pilot intervals.

51. The wireless communications apparatus of claim 48, wherein the processor is further configured to receive one or more reports of observed channel quality from the one or more associated user equipment units upon completion of a null pilot interval and to select the coordination scheme to be utilized between the wireless communications apparatus and the one or more cooperative network cells for communication with the at least one of the one or more associated user equipment units based at least in part on the received one or more reports.

52. An apparatus of a network cell, the network cell operable to conduct communication using inter-site coordination across a set of network cells with one or more associated user equipment units, comprising:
means for defining an interference reporting schedule for the one or more associated user equipment units, wherein the interference reporting schedule includes one or more null pilots;
means for performing at least one of transmit silencing or transmit power backoff upon occurrence of respective null pilots in the interference reporting schedule;
means for receiving interference feedback from the one or more associated user equipment units subsequent to occurrence of a null pilot; and
means for selecting a coordination scheme to be utilized across the set of network cells for communication with at least one of the one or more associated user equipment units based at least in part on the received interference feedback.', 'means for defining an interference reporting schedule for the one or more associated user equipment units, wherein the interference reporting schedule includes one or more null pilots;', 'means for performing at least one of transmit silencing or transmit power backoff upon occurrence of respective null pilots in the interference report