Positioning in a Shared Cell

1 - 28 . (canceled) 29 . A method implemented by a measuring node in a wireless communication system, the method comprising: performing positioning measurements, at the measuring node, on positioning signals that the measuring node receives from geographically separated transmission points (TPs) of a shared cell during different respective positioning occasions offset in time, wherein the positioning signals are based on the same cell identifier; at the measuring node, associating a result of each measurement with the cell identifier as well as information indicating the timing of each positioning occasion during which the measuring node received a respective positioning signal used for that measurement; and determining at the measuring node, or assisting another node in determining, a target device's position based on the results of the measurements and the association. 30 . The method of claim 29 , wherein the assisting comprises reporting, to the another node, the result of each measurement, as associated with the cell identifier and the information. 31 . The method of claim 29 , further comprising performing positioning measurements, at the measuring node, on positioning signals that the measuring node receives from other geographically separated TPs of the shared cell during positioning occasions that are not offset in time, when a distance and/or transmit time misalignment between the other TPs is below a threshold. 32 . The method of claim 29 , further comprising receiving positioning assistance data indicating whether and/or which TPs in the shared cell are transmitting positioning signals based on the same cell identifier but during different positioning occasions offset in time. 33 . The method of claim 29 : further comprising receiving positioning assistance data indicating the timing of the positioning occasions during which the positioning signals are to be received from the TPs; wherein the performing comprises performing the positioning measurements according to the positioning assistance data. 34 . The method of claim 29 , wherein measurement length and/or accuracy requirements applicable to the positioning measurements are less stringent than other measurement length and/or accuracy requirements that apply when at least one of: the measuring node is not performing positioning measurements on a shared cell; and a transmit and/or receive time difference between two or more TPs in the shared cell is below a threshold. 35 . The method of claim 29 , further comprising deriving the timing of the positioning occasions from one or more predefined rules. 36 . The method of claim 35 , wherein the deriving comprises deriving a starting time of at least one of the positioning occasions as being a predefined timing offset from a predefined reference time. 37 . The method of claim 36 , wherein the deriving the starting time comprises deriving the predefined timing offset and/or the predefined reference time as a function of at least one of: a number of TPs in the shared cell transmitting the positioning signals; and periodicities of the positioning signals. 38 . The method of claim 29 , wherein the timing of a positioning occasion is represented as one or more of: a time offset; a time offset and an absolute or relative reference time from which the time offset is applied; a positioning occasion starting time; and a positioning signal configuration. 39 . The method of claim 38 : wherein the wireless communication system is a Long Term Evolution (LTE) system; wherein positioning signals are Positioning Reference Signals (PRS); wherein the cell identifier is a physical cell identifier; and wherein positioning measurements performed on the positioning signals are timing measurements. 40 . The method of claim 39 : wherein the timing measurements are reference signal time difference (RSTD) measurements or Rx-Tx measurements; and wherein the timing of a positioning occasion is represented as a PRS configuration index or a PRS subframe offset. 41 . The method of claim 29 , wherein the measuring node that performs positioning measurements on positioning signals is the same as a target device whose position is determined based on those positioning measurements and/or the same as a positioning node that determines the position of the target device. 42 . A method implemented by a positioning node in a wireless communication system, the method comprising: generating positioning assistance data indicating at least one of: timing of positioning occasions during which a measuring node is to receive positioning signals from geographically separated transmission points (TPs) of a shared cell for performing positioning measurements thereon, the timing indicating that the positioning occasions are offset in time from one another, wherein the positioning signals are based on the same cell identifier; and whether and/or which different TPs in the shared cell are transmitting positioning signals based on the same cell identifier but during different positioning occasions offset in time; and transmitting the positioning assistance data to the measuring node. 43 . A method implemented by a positioning node in a wireless communication system, the method comprising: obtaining results of positioning measurements that a measuring node performed on positioning signals received from geographically separated transmission points (TPs) of a shared cell during different respective positioning occasions offset in time, wherein the positioning signals are based on the same cell identifier and wherein the result of each measurement is associated with that cell identifier as well as information indicating the timing of each positioning occasion during which the measuring node received a respective positioning signal used for the measurement; uniquely identifying which TPs of the shared cell transmitted which positioning signals, based on the timing of the positioning occasions; and determining a target device's position based on the identification. 44 . A method implemented by a radio network node controlling a transmission point (TP) in a shared cell that comprises multiple geographically separated TPs in a wireless communication system, the method comprising: obtaining a configuration for transmitting a positioning signal from the TP based on the same cell identifier as that based on which one or more other TPs in the shared cell transmit a positioning signal, but during a different positioning occasion offset in time from that during which the one or more other TPs in the shared cell transmit a positioning signal; and transmitting the positioning signal from the TP according to the obtained configuration. 45 . The method of claim 44 , further comprising: generating different configurations for different TPs in the shared cell to transmit positioning signals based on the same cell identifier but during different positioning occasions offset in time; and transmitting the generated configurations to the different TPs. 46 . A measuring node for use in a wireless communication system, wherein the measuring node comprising: one or more processing circuits configured to: perform positioning measurements on positioning signals that the measuring node receives from geographically separated transmission points (TPs) of a shared cell during different respective positioning occasions offset in time, wherein the positioning signals are based on the same cell identifier; associate a result of each measurement with the