Techniques for sending or receiving channel state information reports associated with a coordinated multi-point scheme

What is claimed is: 1. A computer-implemented method comprising: receiving, at user equipment (UE) capable of operating in compliance with one or more 3 rd Generation Partnership Project (3GPP) Long Term Evolution (LTE) standards, a channel state information (CSI) processes set comprising three or more CSI processes, the CSI processes set associated with a coordinated multi-point (CoMP) scheme for the UE to receive coordinated signals from three or more transmission points, each of the three or more CSI processes corresponding to a respective one of the three or more transmission points; generating two or more CSI reports using the CSI processes set based on constraining CSI feedback for implementing the CoMP scheme, constraining the CSI feedback to include: selecting, by processing circuitry of the UE, two of the three or more transmission points to which the three or more CSI processes correspond; and limiting a number of CSI reports based on only considering transmission cases for the two selected transmission points; transmitting the two or more generated CSI reports to facilitate implementing the CoMP scheme; constraining the CSI feedback to include increasing the amount of time for the UE to process the CSI processes set to generate the two or more CSI reports by: determining a CSI value for a given CSI process based on the received CSI processes set at least N subframes prior to receiving a CSI trigger associated with a given one of the two or more CSI reports; both generating and sending the given CSI report in K subframes after receiving the CSI trigger, where N and K equate to any positive whole integer; and scaling a CSI report generation periodicity associated with each generated CSI report from among the two or more CSI reports such that the UE is capable of serially processing CSI processes sets respectively associated with each generated CSI report. 2. The computer-implemented method of claim 1 comprising: receiving a CSI trigger; and generating and transmitting the two or more CSI reports responsive to receiving the CSI trigger. 3. The computer-implemented method of claim 2 , comprising receiving the CSI trigger from an evolved node B (eNB) from among the three or more transmission points and transmitting the two or more CSI reports to the eNB. 4. The computer-implemented method of claim 1 , limiting the number of CSI reports based on only considering transmission cases for two of the three or more transmission points comprising: selecting first and second transmission points based on respective strongest coordinated signals received from these first and second transmission points; and generating a total of four CSI reports based on four transmission cases associated with transmissions received at the UE from the first and second transmission points. 5. The computer-implemented method of claim 4 , the four transmission cases comprising interference from the first transmission point while the second transmission point is a serving transmission point, interference from the second transmission point while the first transmission point is the serving transmission point, no interference from the first transmission point while the second transmission point is the serving transmission point or no interference from the second transmission point while the first transmission point is the serving transmission point. 6. The computer-implemented method of claim 1 , each of the three or more CSI processes to include a respective CSI interference measurement (CSI-IM) resource sent from an evolved node B (eNB) from among the three or more transmission points. 7. The computer-implemented method of claim 6 , constraining the CSI feedback to include limiting a number of CSI-IM resources used to generate the two or more CSI reports based on only considering transmission cases for the two of the three or more transmission points. 8. The computer-implemented method of claim 1 , constraining the CSI feedback to include reusing a given rank indicator (RI) for each generated CSI report, by: determining, for one given CSI process from among the three or more CSI processes, the given RI by considering a configured 3GPP LTE codebookSubsetRestriction parameter, and using the given RI to determine channel quality indicators (CQIs) and precoding matrix indicators (PMIs) of other given CSI processes from among the three or more CSI processes by considering other configured 3 GPP LTE codebookSubsetRestriction parameters for the other given CSI processes. 9. The computer-implemented method of 1 , the CoMP scheme to include a joint transmission CoMP scheme, a dynamic point system/dynamic point blanking (DPS/DPB) CoMP scheme or a coordinated scheduling/coordinate beamforming (CS/CB) CoMP scheme. 10. An apparatus comprising: a processor circuit for user equipment (UE) capable of operating in compliance with one or more 3 rd Generation Partnership Project (3GPP) Long Term Evolution (LTE) standards; a receive component for execution by the processor circuit to receive a coordinated multi-point (CoMP) measurement associated with a CoMP scheme for the UE to receive coordinated signals from three or more transmission points; a generation component for execution by the processor circuit to generate two or more channel state information (CSI) reports using a CSI processes set associated with the CoMP scheme, the CSI processes set to comprise three or more CSI processes, each of the three or more CSI processes to correspond to a respective one of the three or more transmission points; a constrain component for execution by the processor circuit to constrain CSI feedback for implementing the CoMP scheme, constraining the CSI feedback to include: selecting two of the three or more transmission points to which the three or more CSI processes correspond; and limiting a number of CSI reports based on only considering transmission cases for the two selected transmission points; a report component for execution by the processor circuit to send the two or more generated CSI reports to facilitate implementing the CoMP scheme; the receive component to receive a CSI trigger, the generation component to generate the two or more CSI reports in response to receipt of the CSI trigger, the constrain component to constrain the CSI feedback by increasing an amount of time for the generation component to generate the two or more CSI reports by: allowing the generation component to determine a CSI value for a given CSI report using the CSI processes set at least N subframes prior to receiving the CSI trigger; allowing the report component to send the given CSI report in K subframes after receiving the CSI trigger, where N and K equate to any positive whole integer; and scaling a CSI report generation periodicity associated with each generated CSI report from among the two or more CSI reports such that the UE is capable of serially processing CSI processes sets respectively associated with each generated CSI report. 11. The apparatus of claim 10 , the receive component to receive the CSI trigger from an evolved node B (eNB) from among the three or more transmission points and the report component to transmit the two or more CSI reports to the eNB. 12. The apparatus of claim 10 , the constrain component to select first and second transmission points from among the three or more transmission points based on respective strongest coordinated signals received from these first and second transmission points and allow a total of four CSI reports to be generated by the generate component based on four transmission cases associated with transmissions received at the UE from the first and second transmissi