CTNF 18/781,799 CTNF 80845 DETAILED ACTION Notice of Pre-AIA or AIA Status 07-03-aia AIA 15-10-aia The present application, filed on or after March 16, 2013, is being examined under the first inventor to file provisions of the AIA. Double Patenting 08-33 AIA The nonstatutory double patenting rejection is based on a judicially created doctrine grounded in public policy (a policy reflected in the statute) so as to prevent the unjustified or improper timewise extension of the “right to exclude” granted by a patent and to prevent possible harassment by multiple assignees. A nonstatutory double patenting rejection is appropriate where the conflicting claims are not identical, but at least one examined application claim is not patentably distinct from the reference claim(s) because the examined application claim is either anticipated by, or would have been obvious over, the reference claim(s). See, e.g., In re Berg , 140 F.3d 1428, 46 USPQ2d 1226 (Fed. Cir. 1998); In re Goodman , 11 F.3d 1046, 29 USPQ2d 2010 (Fed. Cir. 1993); In re Longi , 759 F.2d 887, 225 USPQ 645 (Fed. Cir. 1985); In re Van Ornum , 686 F.2d 937, 214 USPQ 761 (CCPA 1982); In re Vogel , 422 F.2d 438, 164 USPQ 619 (CCPA 1970); In re Thorington , 418 F.2d 528, 163 USPQ 644 (CCPA 1969). A timely filed terminal disclaimer in compliance with 37 CFR 1.321(c) or 1.321(d) may be used to overcome an actual or provisional rejection based on nonstatutory double patenting provided the reference application or patent either is shown to be commonly owned with the examined application, or claims an invention made as a result of activities undertaken within the scope of a joint research agreement. See MPEP § 717.02 for applications subject to examination under the first inventor to file provisions of the AIA as explained in MPEP § 2159. See MPEP § 2146 et seq. for applications not subject to examination under the first inventor to file provisions of the AIA. A terminal disclaimer must be signed in compliance with 37 CFR 1.321(b). The filing of a terminal disclaimer by itself is not a complete reply to a nonstatutory double patenting (NSDP) rejection. A complete reply requires that the terminal disclaimer be accompanied by a reply requesting reconsideration of the prior Office action. Even where the NSDP rejection is provisional the reply must be complete. See MPEP § 804, subsection I.B.1. For a reply to a non-final Office action, see 37 CFR 1.111(a). For a reply to final Office action, see 37 CFR 1.113(c). A request for reconsideration while not provided for in 37 CFR 1.113(c) may be filed after final for consideration. See MPEP §§ 706.07(e) and 714.13. The USPTO Internet website contains terminal disclaimer forms which may be used. Please visit www.uspto.gov/patent/patents-forms. The actual filing date of the application in which the form is filed determines what form (e.g., PTO/SB/25, PTO/SB/26, PTO/AIA/25, or PTO/AIA/26) should be used. A web-based eTerminal Disclaimer may be filled out completely online using web-screens. An eTerminal Disclaimer that meets all requirements is auto-processed and approved immediately upon submission. For more information about eTerminal Disclaimers, refer to www.uspto.gov/patents/apply/applying-online/eterminal-disclaimer. 08-34 AIA Claim s 1-20 are rejected on the ground of nonstatutory double patenting as being unpatentable over claim s 1, 8, 23, 34, 26-31, 33, 35-38, 40-44 of U.S. Patent No. 12250581 . Although the claims at issue are not identical, they are not patentably distinct from each other because Claims 1-20 is a variation of claims 1, 8, 23, 34, 26-31, 33, 35-38, 40-44 of U.S. Patent No. 12250581 . Instant Application 18/781799 Patent 12250581 1. A network entity, comprising: one or more memories; one or more transceivers; and one or more processors communicatively coupled to the one or more transceivers and the one or more memories, the one or more processors, either alone or in combination, configured to: transmit, via the one or more transceivers, to a user equipment (UE), a measurement request; transmit, via the one or more transceivers, to the UE, a plurality of first reference signal (RS) configurations corresponding to first RSs for the UE to measure in a frame comprising a plurality of slots, each first RS being carried on a slot of the frame; transmit, via the one or more transceivers, to the UE, a plurality of second RS configurations corresponding to second RSs to be transmitted by the UE in the frame, each second RS being carried on a slot of the frame; and receive, via the one or more transceivers, from the UE, a measurement report, wherein the measurement report includes: one or more UE round trip time (RTT) related measurements, each UE RTT related measurement representing a duration between the UE receiving a first RS of the first RSs and the UE transmitting a second RS of the second RSs in the frame, and a time-stamp for each of the one or more UE RTT related measurements, wherein each time-stamp is one of a system frame number (SFN), subframe ID, slot ID, or any combination thereof. 23. A network entity, comprising: a memory; at least one transceiver; and at least one processor communicatively coupled to the memory and the at least one transceiver, the at least one processor configured to: send, via the at least one transceiver, to a user equipment (UE), a downlink reference signal (DL RS) configuration for one or more DL RS resources transmitted by at least one transmission reception point (TRP) in a frame; and receive, via the at least one transceiver, a measurement report from the UE, wherein the measurement report includes: one or more UE receive-to-transmit (Rx-Tx) time difference measurements, each of the one or more UE Rx-Tx time difference measurements representing a time difference between a reception time at the UE during the frame of the one or more DL RS resources and an uplink transmit timing for the UE during the frame, and a timestamp for each of the one or more UE Rx-Tx time difference measurements, wherein each timestamp is a system frame number (SFN), a subframe identifier (ID), a slot ID, or any combination thereof. 30. The network entity of claim 23, wherein the at least one processor is further configured to: transmit, via the at least one transceiver, a measurement request to the UE, wherein the measurement report is received in response to the measurement request . 2. The network entity of claim 1, wherein the one or more processors, either alone or in combination, are further configured to transmit, via the one or more transceivers, to the UE, at least one timing advance (TA) command in between transmissions of two first RSs of the first RSs, in between receptions of two second RSs of the second RSs, or both 35. The UE of claim 32, wherein the at least one processor is further configured to: receive, via the at least one transceiver, from the serving base station, at least one timing advance (TA) command between transmissions of two DL RS resources of the one or more DL RS resources, between receptions of two UL RS resources of the one or more UL RS resources, or both. 3. The network entity of claim 1, wherein the first RSs and the second RSs are positioning reference signals (PRS) 26. The network entity of claim 24, wherein the one or more DL RS resources are one or more positioning reference signal (PRS) resources, the one or more UL RS resources are one or more sounding reference signal (SRS) resources, or both. 4. The network entity of claim 1, wherein the one or more processors, either alone or in combination, are further configured to: transmit, via the one or more transceivers, to the UE, one or more timing advance (TA) commands in the frame, each TA command being carried on a slot of the frame, wherein the one or more TA commands are included in media access control (MAC) control elements (CEs). 37. The UE of claim 31, wherein the at least one processor is further configured to: receive, via the at least one transceiver, from a serving base station, one or more timing advance (TA) commands during the frame, each TA command carried on a slot of the frame, wherein the one or more TA commands are included in media access control control elements (MAC-CEs). 5. The network entity of claim 1, wherein a granularity of each UE RTT related measurement of the one or more UE RTT related measurements is at a frame level, subframe level or a slot level. 27. The network entity of claim 23, wherein a granularity of each UE Rx-Tx time difference measurement of the one or more UE Rx-Tx time difference measurements is at a frame level, a subframe level, or a slot level. 6. The network entity of claim 5, wherein: the measurement report includes one UE RTT related measurement, and the one UE RTT related measurement corresponds to a last first RS reception and a last second RS transmission in the frame, or corresponds to a first first RS reception and a first second RS transmission in the frame. 28. The network entity of claim 27, wherein: the measurement report includes one UE Rx-Tx time difference measurement, and the one UE Rx-Tx time difference measurement corresponds to a last DL RS resource reception of the one or more DL RS resources in the frame. 7. The network entity of claim 5, wherein each UE RTT related measurement of the one or more UE RTT related measurements is reported associated with an SFN and a slot ID during which the UE RTT related measurement is expected to be valid. 29. The network entity of claim 23, wherein each UE Rx-Tx time difference measurement of the one or more UE Rx-Tx time difference measurements is associated with an SFN and a slot ID during which the UE Rx-Tx time difference measurement is expected to be valid. 8. The network entity of claim 5, wherein each of the one or more UE RTT related measurements is reported associated with a tuple of slot IDs of the frame comprising a slot ID of a reception of the first RS and a slot ID of a transmission of the second RS. 24. The network entity of claim 23, wherein each of the one or more UE Rx-Tx time difference measurements is associated with a tuple of slot IDs of the frame comprising a slot ID of a slot of the frame including the reception time of the one or more DL RS resources and a slot ID of a slot of the frame including transmission of one or more uplink reference signal (UL RS) resources transmitted by the UE during the frame. 9. The network entity of claim 1, wherein the plurality of second RS configurations corresponds to the plurality of first RS configurations See claim 23 10. A user equipment (UE), comprising: one or more memories; one or more transceivers; and one or more processors communicatively coupled to the one or more transceivers and the one or more memories, the one or more processors, either alone or in combination, configured to: receive, via the one or more transceivers, from a network entity, a measurement request; receive, via the one or more transceivers, from the network entity, a plurality of first reference signal RS configurations corresponding to first RSs transmitted for the UE to measure in a frame comprising a plurality of slots, each first RS being carried on a slot of the frame; receive, via the one or more transceivers, from the network entity, a plurality of second RS configurations corresponding to second RSs to be transmitted by the UE in the frame, each second RS being carried on a slot of the frame; and provide, via the one or more transceivers, to the network entity, a measurement report of the frame, wherein the measurement report includes: one or more UE round trip time (RTT) related measurements, each UE RTT related measurement representing a duration between the UE receiving a first RS of the first RSs and the UE transmitting a second RS of the second RSs in the frame, and a time-stamp for each of the one or more UE RTT related measurements, wherein each time-stamp is one of a system frame number (SFN), subframe ID, slot ID, or any combination thereof. 31. A user equipment (UE), comprising: a memory; at least one transceiver; and at least one processor communicatively coupled to the memory and the at least one transceiver, the at least one processor configured to: receive, via the at least one transceiver, from a network entity, a downlink reference signal (DL RS) configuration for one or more DL RS resources transmitted by at least one transmission reception point (TRP) in a frame; and transmit, via the at least one transceiver, a measurement report to the network entity, wherein the measurement report includes: one or more UE receive-to-transmit (Rx-Tx) time difference measurements, each of the one or more UE Rx-Tx time difference measurements representing a time difference between a reception time at the UE during the frame of the one or more DL RS resources and an uplink transmit timing for the UE during the frame, and a timestamp for each of the one or more UE Rx-Tx time difference measurements, wherein each timestamp is a system frame number (SFN), a subframe identifier (ID), a slot ID, or any combination thereof. 44. The UE of claim 31, wherein the at least one processor is further configured to: receive, via the at least one transceiver, a measurement request from the network entity, wherein the measurement report is transmitted in response to the measurement request . 11. The UE of claim 10, wherein the one or more processors, either alone or in combination, are further configured to: receive, via the one or more transceivers, at least one timing advance (TA) command in between receptions of two first RSs of the first RSs and/or in between transmissions of two second RSs of the second RSs. 35. The UE of claim 32, wherein the at least one processor is further configured to: receive, via the at least one transceiver, from the serving base station, at least one timing advance (TA) command between transmissions of two DL RS resources of the one or more DL RS resources, between receptions of two UL RS resources of the one or more UL RS resources, or both. 12. The UE of claim 10, wherein the first RSs and the second RSs are positioning reference signals (PRS). 36. The UE of claim 32, wherein the one or more DL RS resources are one or more positioning reference signal (PRS) resources, the one or more UL RS resources are one or more sounding reference signal (SRS) resources, or both. 13. The UE of claim 10, wherein the one or more processors, either alone or in combination, are further configured to: receive, via the one or more transceivers, one or more timing advance (TA) commands in the frame, each TA command being carried on a slot of the frame, wherein the one or more TA commands are included in media access control (MAC) control elements (CEs). 37. The UE of claim 31, wherein the at least one processor is further configured to: receive, via the at least one transceiver, from a serving base station, one or more timing advance (TA) commands during the frame, each TA command carried on a slot of the frame, wherein the one or more TA commands are included in media access control control elements (MAC-CEs) 14. The UE of claim 10, wherein the one or more processors, either alone or in combination, are further configured to: receive, via the one or more transceivers, a timing advance (TA) command on a slot of the frame; and apply the TA command to all subsequent uplink transmissions in the frame. 38. The UE of claim 31, wherein the at least one processor is further configured to: receive, via the at least one transceiver, from a serving base station, a timing advance (TA) command in a slot of the frame; and apply the TA command to all subsequent uplink transmissions in the frame. 15. The UE of claim 14, wherein: the one or more processors, either alone or in combination, are further configured to determine whether or not the measurement request is for positioning only, the TA command is applied to all subsequent uplink transmissions in the frame based on a determination that the measurement request is not for positioning only, and the TA command is applied to all subsequent uplink transmissions in the frame except for SRS transmissions based on a determination that the measurement request is for positioning only. 40. The UE of claim 38, wherein the at least one processor is further configured to: receive, via the at least one transceiver, a measurement request from the network entity; determine whether the measurement request is for positioning only, wherein the TA command is applied to all subsequent uplink transmissions in the frame based on a determination that the measurement request is not for positioning only, and wherein the TA command is applied to all subsequent uplink transmissions in the frame except for SRS transmissions based on a determination that the measurement request is for positioning only. 16. The UE of claim 10, wherein a granularity of each UE RTT related measurement of the one or more UE RTT related measurements is at a frame level, subframe level or a slot level. 41. The UE of claim 31, wherein a granularity of each UE Rx-Tx time difference measurement of the one or more UE Rx-Tx time difference measurements is at a frame level, a subframe level, or a slot level. 17. The UE of claim 16, wherein: the measurement report includes one UE RTT related measurement, and the one UE RTT related measurement corresponds to a last first RS reception and a last second RS transmission in the frame, or corresponds to a first first RS reception and a first second RS transmission in the frame. 42. The UE of claim 31, wherein: the measurement report includes one UE Rx-Tx time difference measurement, and the one UE Rx-Tx time difference measurement corresponds to a last DL RS resource reception of the one or more DL RS resources in the frame. 18. The UE of claim 16, wherein each UE RTT related measurement of the one or more UE RTT related measurements is reported associated with a slot ID and an SFN during which the UE RTT related measurement is expected to be valid. 43. The UE of claim 31, wherein each UE Rx-Tx time difference measurement of the one or more UE Rx-Tx time difference measurements is associated with an SFN and a slot ID during which the UE Rx-Tx time difference measurement is expected to be valid. 19. The UE of claim 16, wherein each of the one or more UE RTT related measurements is reported associated with a tuple of slot IDs and/or subframe IDs of the frame comprising a slot ID and/or a subframe ID of a reception of the first RS and a slot ID and/or a subframe ID of a transmission of the second RS. 33. The UE of claim 32, wherein each of the one or more UE Rx-Tx time difference measurements is associated with a tuple of slot IDs of the frame comprising a slot ID of a slot of the frame including the reception time of the one or more DL RS resources and a slot ID of a slot of the frame including transmission of the one or more UL RS resource 20. A method performed by a network entity, the method comprising: sending, to a user equipment (UE), a measurement request; sending, to the UE, a plurality of first reference signal (RS) configurations corresponding to first RSs for a UE to measure in a frame comprising a plurality of slots, each first RS being carried on a slot of the frame; sending, to the UE, a plurality of second RS configurations corresponding to second RSs to be transmitted by the UE in the frame, each second RS being carried on a slot of the frame; and receiving, from the UE, a measurement report, wherein the measurement report includes: one or more UE round trip time (RTT) related measurements, each UE RTT related measurement representing a duration between the UE receiving a first RS of the first RSs and the UE transmitting a second RS of the second RSs in the frame, and a time-stamp for each of the one or more UE RTT related measurements, wherein each time-stamp is one of a system frame number (SFN), subframe ID, slot ID, or any combination thereof. 1. A method of wireless communication performed by a network entity, comprising: sending, to a user equipment (UE), a downlink reference signal (DL RS) configuration for one or more DL RS resources transmitted by at least one transmission reception point (TRP) in a frame; and receiving a measurement report from the UE, wherein the measurement report includes: one or more UE receive-to-transmit (Rx-Tx) time difference measurements, each of the one or more UE Rx-Tx time difference measurements representing a time difference between a reception time at the UE during the frame of the one or more DL RS resources and an uplink transmit timing for the UE during the frame, and a timestamp for each of the one or more UE Rx-Tx time difference measurements, wherein each timestamp is a system frame number (SFN), a subframe identifier (ID), a slot ID, or any combination thereof. 8. The method of claim 1, further comprising: transmitting a measurement request to the UE, wherein the measurement report is received in response to the measurement request . 08-34 AIA Claim s 1-20 are rejected on the ground of nonstatutory double patenting as being unpatentable over claim s 1, 22-35, 37-41 of U.S. Patent No. 11323907 . Although the claims at issue are not identical, they are not patentably distinct from each other because Claims 1-20 is a variation of claims 1, 22-35, 37-41 of U.S. Patent No. 11323907 . Instant Application 18/781799 Patent 11323907 1. A network entity, comprising: one or more memories; one or more transceivers; and one or more processors communicatively coupled to the one or more transceivers and the one or more memories, the one or more processors, either alone or in combination, configured to: transmit, via the one or more transceivers, to a user equipment (UE), a measurement request; transmit, via the one or more transceivers, to the UE, a plurality of first reference signal (RS) configurations corresponding to first RSs for the UE to measure in a frame comprising a plurality of slots, each first RS being carried on a slot of the frame; transmit, via the one or more transceivers, to the UE, a plurality of second RS configurations corresponding to second RSs to be transmitted by the UE in the frame, each second RS being carried on a slot of the frame; and receive, via the one or more transceivers, from the UE, a measurement report, wherein the measurement report includes: one or more UE round trip time (RTT) related measurements, each UE RTT related measurement representing a duration between the UE receiving a first RS of the first RSs and the UE transmitting a second RS of the second RSs in the frame, and a time-stamp for each of the one or more UE RTT related measurements, wherein each time-stamp is one of a system frame number (SFN), subframe ID, slot ID, or any combination thereof. 22. A network entity, comprising: a transceiver; a memory; and a processor, communicatively coupled to the transceiver and the memory, the processor configured to: cause the transceiver to transmit, to a user equipment (UE) being served by a serving transmission reception point (TRP), a measurement request; cause the transceiver to transmit to the UE, a plurality of downlink reference signal (DL RS) configurations corresponding to DL RSs transmitted by the serving TRP and/or neighboring TRPs in a frame comprising a plurality of slots, each DL RS being carried on a slot of the frame; cause the transceiver to transmit to the UE, a plurality of uplink reference signal (UL RS) configurations corresponding to UL RSs to be transmitted by the UE towards the serving TRP and/or the neighboring TRPs in the frame, each UL RS being carried on a slot of the frame; and cause the transceiver to receive, from the UE, a measurement report of the frame on an uplink channel, wherein the measurement report includes: one or more UE round trip time (RTT) related measurements, each UE RTT related measurement representing a duration between the UE receiving a DL RS of the DL RSs from a transmitting TRP of the serving TRP and/or the neighboring TRPs and the UE transmitting an UL RS of the UL RSs in the frame, and a time-stamp for each of the one or more UE RTT related measurements, wherein each time-stamp is one of a system frame number (SFN), subframe ID, slot ID, or any combination thereof. 2. The network entity of claim 1, wherein the one or more processors, either alone or in combination, are further configured to transmit, via the one or more transceivers, to the UE, at least one timing advance (TA) command in between transmissions of two first RSs of the first RSs, in between receptions of two second RSs of the second RSs, or both 23. The network entity of claim 22, wherein the at least one processor is further configured to transmit, to the UE, at least one timing advance (TA) command in between transmissions of two DL RSs and/or in between receptions of two UL RSs of the frame. 3. The network entity of claim 1, wherein the first RSs and the second RSs are positioning reference signals (PRS) 24. The network entity of claim 22, wherein the DL RSs are positioning reference signals (PRS) and/or the UL RSs are sounding reference signals (SRS). 4. The network entity of claim 1, wherein the one or more processors, either alone or in combination, are further configured to: transmit, via the one or more transceivers, to the UE, one or more timing advance (TA) commands in the frame, each TA command being carried on a slot of the frame, wherein the one or more TA commands are included in media access control (MAC) control elements (CEs). 25. The network entity of claim 22, wherein the at least one processor is further configured to: cause the transceiver to transmit, to the UE, one or more timing advance (TA) commands in the frame, each TA command being carried on a slot of the frame, wherein the one or more TA commands are included in media access control (MAC) control elements (CEs). 5. The network entity of claim 1, wherein a granularity of each UE RTT related measurement of the one or more UE RTT related measurements is at a frame level, subframe level or a slot level. 26. The network entity of claim 22, wherein a granularity of each UE RTT related measurement of the one or more UE RTT related measurements is at a frame level, subframe level or a slot level. 6. The network entity of claim 5, wherein: the measurement report includes one UE RTT related measurement, and the one UE RTT related measurement corresponds to a last first RS reception and a last second RS transmission in the frame, or corresponds to a first first RS reception and a first second RS transmission in the frame. 27. The network entity of claim 26, wherein: the measurement report includes one UE RTT related measurement, and the one UE RTT related measurement corresponds to a last DL RS reception and a last UL RS transmission in the frame, or corresponds to a first DL RS reception and a first UL RS transmission in the frame. 7. The network entity of claim 5, wherein each UE RTT related measurement of the one or more UE RTT related measurements is reported associated with an SFN and a slot ID during which the UE RTT related measurement is expected to be valid. 28. The network entity of claim 26, wherein each UE RTT related measurement of the one or more UE RTT related measurements is reported associated with an SFN and a slot ID during which the UE RTT related measurement is expected to be valid. 8. The network entity of claim 5, wherein each of the one or more UE RTT related measurements is reported associated with a tuple of slot IDs of the frame comprising a slot ID of a reception of the first RS and a slot ID of a transmission of the second RS. 29. The network entity of claim 26, wherein each of the one or more UE RTT related measurements is reported associated with a tuple of slot IDs of the frame comprising a slot ID of a reception of the DL RS and a slot ID of a transmission of the UL RS. 9. The network entity of claim 1, wherein the plurality of second RS configurations corresponds to the plurality of first RS configurations 30. The network entity of claim 22, wherein the plurality of UL RS configurations corresponds to the plurality of DL RS configurations. 10. A user equipment (UE), comprising: one or more memories; one or more transceivers; and one or more processors communicatively coupled to the one or more transceivers and the one or more memories, the one or more processors, either alone or in combination, configured to: receive, via the one or more transceivers, from a network entity, a measurement request; receive, via the one or more transceivers, from the network entity, a plurality of first reference signal RS configurations corresponding to first RSs transmitted for the UE to measure in a frame comprising a plurality of slots, each first RS being carried on a slot of the frame; receive, via the one or more transceivers, from the network entity, a plurality of second RS configurations corresponding to second RSs to be transmitted by the UE in the frame, each second RS being carried on a slot of the frame; and provide, via the one or more transceivers, to the network entity, a measurement report of the frame, wherein the measurement report includes: one or more UE round trip time (RTT) related measurements, each UE RTT related measurement representing a duration between the UE receiving a first RS of the first RSs and the UE transmitting a second RS of the second RSs in the frame, and a time-stamp for each of the one or more UE RTT related measurements, wherein each time-stamp is one of a system frame number (SFN), subframe ID, slot ID, or any combination thereof. 31. A user equipment (UE), comprising: a transceiver; a memory; and a processor, communicatively coupled to the transceiver and the memory, the processor configured to: cause the transceiver to receive, from a network entity, a measurement request; cause the transceiver to receive, from the network entity, a plurality of downlink reference signal (DL RS) configurations corresponding to DL RSs transmitted by a serving transmission reception point (TRP) and/or neighboring TRPs in a frame comprising a plurality of slots, each DL RS being carried on a slot of the frame; cause the transceiver to receive, from the network entity, a plurality of uplink reference signal (UL RS) configurations corresponding to UL RSs to be transmitted by the UE towards the serving TRP and/or the neighboring TRP in the frame, each UL RS being carried on a slot of the frame; and cause the transceiver to provide, to the network entity, a measurement report of the frame, wherein the measurement report includes: one or more UE round trip time (RTT) related measurements, each UE RTT related measurement representing a duration between the UE receiving a DL RS of the DL RSs from a transmitting TRP of the serving TRP and/or the neighboring TRPs and the UE transmitting an UL RS of the UL RSs in the frame, and a time-stamp for each of the one or more UE RTT related measurements, wherein each time-stamp is one of a system frame number (SFN), subframe ID, slot ID, or any combination thereof. 11. The UE of claim 10, wherein the one or more processors, either alone or in combination, are further configured to: receive, via the one or more transceivers, at least one timing advance (TA) command in between receptions of two first RSs of the first RSs and/or in between transmissions of two second RSs of the second RSs. 32. The UE of claim 31, wherein the at least one processor is further configured to: cause the transceiver to receive at least one timing advance (TA) command in between receptions of two DL RSs and/or in between transmissions of two UL RSs of the frame. 12. The UE of claim 10, wherein the first RSs and the second RSs are positioning reference signals (PRS). 33. The UE of claim 31, wherein the DL RSs are positioning reference signals (PRS) and/or the UL RSs are sounding reference signals (SRS) 13. The UE of claim 10, wherein the one or more processors, either alone or in combination, are further configured to: receive, via the one or more transceivers, one or more timing advance (TA) commands in the frame, each TA command being carried on a slot of the frame, wherein the one or more TA commands are included in media access control (MAC) control elements (CEs). 34. The UE of claim 31, wherein the at least one processor is further configured to: cause the transceiver to receive, from the serving TRP, one or more timing advance (TA) commands in the frame, each TA command being carried on a slot of the frame, wherein the one or more TA commands are included in media access control (MAC) control elements (CEs). 14. The UE of claim 10, wherein the one or more processors, either alone or in combination, are further configured to: receive, via the one or more transceivers, a timing advance (TA) command on a slot of the frame; and apply the TA command to all subsequent uplink transmissions in the frame. 35. The UE of claim 31, wherein the processor is further configured to: cause the transceiver to receive, from the serving TRP, a timing advance (TA) command on a slot of the frame; and apply the TA command to all subsequent uplink transmissions in the frame. 15. The UE of claim 14, wherein: the one or more processors, either alone or in combination, are further configured to determine whether or not the measurement request is for positioning only, the TA command is applied to all subsequent uplink transmissions in the frame based on a determination that the measurement request is not for positioning only, and the TA command is applied to all subsequent uplink transmissions in the frame except for SRS transmissions based on a determination that the measurement request is for positioning only. 37. The UE of claim 35, wherein the processor is further configured to: determine whether or not the measurement request is for positioning only, wherein the TA command is applied to all subsequent uplink transmissions in the frame based on a determination that the measurement request is not for positioning only, and wherein the TA command is applied to all subsequent uplink transmissions in the frame except for SRS transmissions based on a determination that the measurement request is for positioning only. 16. The UE of claim 10, wherein a granularity of each UE RTT related measurement of the one or more UE RTT related measurements is at a frame level, subframe level or a slot level. 38. The UE of claim 31, wherein a granularity of each UE RTT related measurement of the one or more UE RTT related measurements is at a frame level, subframe level or a slot level. 17. The UE of claim 16, wherein: the measurement report includes one UE RTT related measurement, and the one UE RTT related measurement corresponds to a last first RS reception and a last second RS transmission in the frame, or corresponds to a first first RS reception and a first second RS transmission in the frame. 39. The UE of claim 38, wherein: the measurement report includes one UE RTT related measurement, and the one UE RTT related measurement corresponds to a last DL RS reception and a last UL RS transmission in the frame, or corresponds to a first DL RS reception and a first UL RS transmission in the frame. 18. The UE of claim 16, wherein each UE RTT related measurement of the one or more UE RTT related measurements is reported associated with a slot ID and an SFN during which the UE RTT related measurement is expected to be valid. 40. The UE of claim 38, wherein each UE RTT related measurement of the one or more UE RTT related measurements is reported associated with a slot ID and an SFN during which the UE RTT related measurement is expected to be valid. 19. The UE of claim 16, wherein each of the one or more UE RTT related measurements is reported associated with a tuple of slot IDs and/or subframe IDs of the frame comprising a slot ID and/or a subframe ID of a reception of the first RS and a slot ID and/or a subframe ID of a transmission of the second RS. 41. The UE of claim 38, wherein each of the one or more UE RTT related measurements is reported associated with a tuple of slot IDs and/or subframe IDs of the frame comprising a slot ID and/or a subframe ID of a reception of the DL RS and a slot ID and/or a subframe ID of a transmission of the UL RS. 20. A method performed by a network entity, the method comprising: sending, to a user equipment (UE), a measurement request; sending, to the UE, a plurality of first reference signal (RS) configurations corresponding to first RSs for a UE to measure in a frame comprising a plurality of slots, each first RS being carried on a slot of the frame; sending, to the UE, a plurality of second RS configurations corresponding to second RSs to be transmitted by the UE in the frame, each second RS being carried on a slot of the frame; and receiving, from the UE, a measurement report, wherein the measurement report includes: one or more UE round trip time (RTT) related measurements, each UE RTT related measurement representing a duration between the UE receiving a first RS of the first RSs and the UE transmitting a second RS of the second RSs in the frame, and a time-stamp for each of the one or more UE RTT related measurements, wherein each time-stamp is one of a system frame number (SFN), subframe ID, slot ID, or any combination thereof. 1. A method performed by a network entity, the method comprising: sending, to a user equipment (UE) being served by a serving transmission reception point (TRP), a measurement request; sending, to the UE, a plurality of downlink reference signal (DL RS) configurations corresponding to DL RSs transmitted by the serving TRP and/or neighboring TRPs in a frame comprising a plurality of slots, each DL RS being carried on a slot of the frame; sending, to the UE, a plurality of uplink reference signal (UL RS) configurations corresponding to UL RSs to be transmitted by the UE towards the serving TRP and/or the neighboring TRPs in the frame, each UL RS being carried on a slot of the frame; and receiving, from the UE, a measurement report of the frame on an uplink channel, wherein the measurement report includes: one or more UE round trip time (RTT) related measurements, each UE RTT related measurement representing a duration between the UE receiving a DL RS of the DL RSs from a transmitting TRP of the serving TRP and/or the neighboring TRPs and the UE transmitting an UL RS of the UL RSs in the frame, and a time-stamp for each of the one or more UE RTT related measurements, wherein each time-stamp is one of a system frame number (SFN), subframe ID, slot ID, or any combination thereof . Conclusion 07-96 AIA The prior art made of record and not relied upon is considered pertinent to applicant's disclosure. Qualcomm, R2-1817899, 3GPP TSG-RAN WG2 MEETING #104, pp 1-18, 12-16 (November 2018) disclosing a serving gNB sends a RRC DL POS measurement request message to the target device and the target device reports the DL-PRS measurements to the serving gNB in a RRC DL POS measurement report message. Kazmi et al. (US 20120120821) disclosing a CRS signal is transmitted by the eNode B every subframe to assist the UE in performing neighbor cell measurements ([0015]-[0016]). Any inquiry concerning this communication or earlier communications from the examiner should be directed to NGUYEN HOANG NGO whose telephone number is (571)272-8398. The examiner can normally be reached Monday-Friday 9am-5pm. Examiner interviews are available via telephone, in-person, and video conferencing using a USPTO supplied web-based collaboration tool. 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If you would like assistance from a USPTO Customer Service Representative, call 800-786-9199 (IN USA OR CANADA) or 571-272-1000. /NGUYEN H NGO/Examiner, Art Unit 2473 Application/Control Number: 18/781,799 Page 2 Art Unit: 2473 Application/Control Number: 18/781,799 Page 3 Art Unit: 2473 Application/Control Number: 18/781,799 Page 4 Art Unit: 2473 Application/Control Number: 18/781,799 Page 5 Art Unit: 2473 Application/Control Number: 18/781,799 Page 6 Art Unit: 2473 Application/Control Number: 18/781,799 Page 7 Art Unit: 2473 Application/Control Number: 18/781,799 Page 8 Art Unit: 2473 Application/Control Number: 18/781,799 Page 9 Art Unit: 2473 Application/Control Number: 18/781,799 Page 10 Art Unit: 2473 Application/Control Number: 18/781,799 Page 11 Art Unit: 2473 Application/Control Number: 18/781,799 Page 12 Art Unit: 2473 Application/Control Number: 18/781,799 Page 13 Art Unit: 2473 Application/Control Number: 18/781,799 Page 14 Art Unit: 2473 Application/Control Number: 18/781,799 Page 15 Art Unit: 2473 Application/Control Number: 18/781,799 Page 16 Art Unit: 2473 Application/Control Number: 18/781,799 Page 17 Art Unit: 2473 Application/Control Number: 18/781,799 Page 18 Art Unit: 2473 Application/Control Number: 18/781,799 Page 19 Art Unit: 2473 Application/Control Number: 18/781,799 Page 20 Art Unit: 2473 Application/Control Number: 18/781,799 Page 21 Art Unit: 2473 Application/Control Number: 18/781,799 Page 22 Art Unit: 2473 Application/Control Number: 18/781,799 Page 23 Art Unit: 2473 Application/Control Number: 18/781,799 Page 24 Art Unit: 2473 Application/Control Number: 18/781,799 Page 25 Art Unit: 2473 Application/Control Number: 18/781,799 Page 26 Art Unit: 2473 Application/Control Number: 18/781,799 Page 27 Art Unit: 2473