Positioning location for remote radio heads (RRH) with same physical cell identity (PCI)
First Claim
Patent Images
1. A method of wireless communication, comprising:
- configuring, a plurality of remote radio heads (RRHs), each RRH having a same physical cell identity (PCI) as a macro eNodeB, to prevent position location reference signal (PRS) transmissions on subframes where the macro eNodeB transmits PRS by scheduling a PRS transmission time of each RRH to be at a time that is different from a PRS transmission time of other RRHs of the plurality of RRHs and a PRS transmission time of the macro eNodeB, and each RRH and macro eNodeB transmitting a same PRS that does not indicate a source of transmission; and
communicating in accordance with the configuration.
1 Assignment
0 Petitions
Accused Products
Abstract
A method of wireless communication includes configuring a plurality of remote radio heads (RRHs) to prevent position location reference signal (PRS) transmissions on the same subframes where the macro eNodeB transmits PRS. The configured RRHs each have a same physical cell identity (PCI) as the macro eNodeB. The RRHs communicating in accordance with the configuration.
-
Citations
8 Claims
-
1. A method of wireless communication, comprising:
-
configuring, a plurality of remote radio heads (RRHs), each RRH having a same physical cell identity (PCI) as a macro eNodeB, to prevent position location reference signal (PRS) transmissions on subframes where the macro eNodeB transmits PRS by scheduling a PRS transmission time of each RRH to be at a time that is different from a PRS transmission time of other RRHs of the plurality of RRHs and a PRS transmission time of the macro eNodeB, and each RRH and macro eNodeB transmitting a same PRS that does not indicate a source of transmission; and communicating in accordance with the configuration.
-
-
2. A method of wireless communication, comprising:
-
receiving, at a location server from a remote radio head (RRH) and a macro eNodeB, reference signal time difference (RSTD) measurements determined from an uplink transmission from a user equipment (UE); combining, at the location server, the received RSTD measurements with measurements from the UE that are based at least in part on RSTD measurements of a first position reference signal (PRS) from the macro eNodeB and a second PRS from the RRH, which has a same physical cell identity (PCI) as the macro eNodeB, the RRH configured to prevent PRS transmissions on subframes where the macro eNodeB transmits PRS by scheduling a PRS transmission time of the RRH to be at a time that is different from a PRS transmission time of the macro eNodeB, and each RRH and macro eNodeB transmitting a same PRS that does not indicate a source of transmission; and determining, at the location server, a position location of the UE based on a combination of the received RSTD measurements from the RRH, the received RSTD measurements and the measurements from the UE.
-
-
3. An apparatus for wireless communication, comprising:
-
a memory; and at least one processor coupled to the memory, the at least one processor being configured; to configure, a plurality of remote radio heads (RRHs), each RRH having a same physical cell identity (PCI) as a macro eNodeB, to prevent position location reference signal (PRS) transmissions on subframes where the macro eNodeB transmits PRS by scheduling a PRS transmission time of each RRH to be at a time that is different from a PRS transmission time of other RRHs of the plurality of RRHs and a PRS transmission time of the macro eNodeB, and each RRH and macro eNodeB transmitting a same PRS that does not indicate a source of transmission; and to communicate in accordance with the configuration.
-
-
4. An apparatus for wireless communication, comprising:
-
a memory; and at least one processor coupled to the memory, the at least one processor being configured; to receive, at a location server from a remote radio head (RRH) and a macro eNodeB, reference signal time difference (RSTD) measurements determined from an uplink transmission from a user equipment (UE); to combine, at the location server, the received RSTD measurements with measurements from the UE that are based at least in part on RSTD measurements of a first position reference signal (PRS) from the macro eNodeB and a second PRS from the RRH, which has a same physical cell identity (PCI) as the macro eNodeB, the RRH configured to prevent PRS transmissions on subframes where the macro eNodeB transmits PRS by scheduling a PRS transmission time of the RRH to be at a time that is different from a PRS transmission time of the macro eNodeB, and each RRH and macro eNodeB transmitting a same PRS that does not indicate a source of transmission; and to determine, at the location server, a position location of the UE based on a combination of the received RSTD measurements from the RRH, the received RSTD measurements and the measurements from the UE.
-
-
5. A computer program product for wireless communication in a wireless network, comprising:
a non-transitory computer-readable medium having non-transitory program code recorded thereon, the program code comprising; program code to configure, a plurality of remote radio heads (RRHs), each RRH having a same physical cell identity (PCI) as a macro eNodeB, to prevent position location reference signal (PRS) transmissions on subframes where the macro eNodeB transmits PRS by scheduling a PRS transmission time of each RRH to be at a time that is different from a PRS transmission time of other RRHs of the plurality of RRHs and a PRS transmission time of the macro eNodeB, and each RRH and macro eNodeB transmitting a same PRS that does not indicate a source of transmission; and program code to communicate in accordance with the configuration.
-
6. A computer program product for wireless communication in a wireless network, comprising:
a non-transitory computer-readable medium having non-transitory program code recorded thereon, the program code comprising; program code to receive, at a location server from a remote radio head (RRH) and a macro eNodeB, reference signal time difference (RSTD) measurements determined from an uplink transmission from a user equipment (UE); program code to combine, at the location server, the received RSTD measurements with measurements from the UE that are based at least in part on RSTD measurements of a first position reference signal (PRS) from the macro eNodeB and a second PRS from the RRH, which has a same physical cell identity (PCI) as the macro eNodeB, the RRH configured to prevent PRS transmissions on subframes where the macro eNodeB transmits PRS by scheduling a PRS transmission time of the RRH to be at a time that is different from a PRS transmission time of the macro eNodeB, and each RRH and macro eNodeB transmitting a same PRS that does not indicate a source of transmission; and program code to determine, at the location server, a position location of the UE based on a combination of the received RSTD measurements from the RRH, the received RSTD measurements and the measurements from the UE.
-
7. An apparatus for wireless communication, comprising:
-
means for configuring, a plurality of remote radio heads (RRHs), each RRH having a same physical cell identity (PCI) as a macro eNodeB, to prevent position location reference signal (PRS) transmissions on subframes where the macro eNodeB transmits PRS by scheduling a PRS transmission time of each RRH to be at a time that is different from a PRS transmission time of other RRHs of the plurality of RRHs and a PRS transmission time of the macro eNodeB, and each RRH and macro eNodeB transmitting a same PRS that does not indicate a source of transmission; and means for communicating in accordance with the configuration.
-
-
8. An apparatus for wireless communication, comprising:
-
means for receiving, at a location server from a remote radio head (RRH) and a macro eNodeB, reference signal time difference (RSTD) measurements determined from an uplink transmission from a user equipment (UE); means for combining, at the location server, the received RSTD measurements with measurements from the UE that are based at least in part on RSTD measurements of a first position reference signal (PRS) from the macro eNodeB and a second PRS from the RRH, which has a same physical cell identity (PCI) as the macro eNodeB, the RRH configured to prevent PRS transmissions on subframes where the macro eNodeB transmits PRS by scheduling a PRS transmission time of the RRH to be at a time that is different from a PRS transmission time of the macro eNodeB, and each RRH and macro eNodeB transmitting a same PRS that does not indicate a source of transmission; and means determining, at the location server, a position location of the UE based on a combination of the received RSTD measurements from the RRH, the received RSTD measurements and the measurements from the UE.
-
Specification