This invention generally relates to wireless communications and more particularly to user equipment (UE) device assisted device location.
Many wireless communication systems employ base stations that provide wireless service to user equipment (UE) devices. The systems often manage communication based on the geographical locations of the UE devices which often move relative to each other and relative to the base stations. In conventional systems, a base station receives signals from a UE device to determine the location typically by evaluating a signal transmitted by the UE device.
A base station selects a plurality of user equipment (UE) devices in a geographical area to report location information regarding at neighbor devices. The base station sends a location information request to the selected UE devices instructing each UE device to transmit location information of a neighbor device. Each reporting UE device of the plurality of UE devices transmits location information which is received by the base station. The location information transmitted from each reporting UE device is at least partially based on at least one measurement of a wireless signal transmitted by the neighbor device and measured by the reporting UE device. The base station determines a neighbor device geographical location of the neighbor device based at least partially on the location information.
It is often advantageous for base stations (gNBs) to have the geographical locations of user equipment (UE) devices or at least have information regarding the distances between specific UE devices. In some circumstances, for example, the base station may use beamforming techniques to direct antenna beams toward a UE device based on the location of the UE device. In other circumstances, the base station may manage communication based on the distance between two or more UE devices. In conventional systems, the base station determines the location of a UE device based on information received directly from the UE device or based on measurements of signals received from the UE device at the base station. In some situations, for example, the base station measures the signal strength and angle of arrival (AoA) of one or more signals transmitted by the UE device. The base station can then determine the geographical location of the UE device using the measured information. In other conventional techniques, the UE device may provide measurements of downlink signals to the base station. For example, a UE device may measure a downlink reference signal transmitted by the base station and provide the measurement to the base station which then can determine the location of the UE device based on the measurements. Conventional techniques are limited in that each UE device must make transmissions to the base station in order for the base station to determine the geographical location of each device. Using the techniques discussed herein, however, communication traffic is reduced since reporting UE devices provide location information of other UE devices to the base station without the need for the other UE devices to transmit signals to the base station.
Although other techniques may be used to determine which UE device functions as the reporting UE device, the reporting UE device 102 may be selected by the base station 104. The base station 104 may send a location information request 118 to the reporting UE device 102. The location information request 118 may be sent via direct signaling specifically to the reporting UE device 102 or may be in the form of general criteria outlining which UE device should function as a reporting UE device 102. In some situations, the location information request 118 may be broadcast, such as in a System Information Block (SIB), for example. The location information request 118 may also include instructions regarding when and how the location information 104 is to be transmitted. The location information request 118 may be sent over multiple transmissions and/or broadcasts and, in some situations, only updates to the criteria are transmitted.
Although the techniques discussed herein may be applied to various types of systems and communication specifications, the devices of the example operate in accordance with at least one revision of a 3GPP New Radio (NR) V2X communication specification. The techniques discussed herein, therefore, may be adopted by one or more future revisions of communication specifications although the techniques may be applied to other communication specifications where sidelink or D2D is employed. More specifically the techniques may be applied to current and future releases of 3GPP NR specifications. For example, the techniques may also be applied to 3GPP NR (Rel-17). In some situations, the techniques can be applied to UE devices that are not D2D capable but include sufficient functionality to receive and measure wireless signals from other UE devices where the other UE devices may or may not be D2D capable. For the example, the UE devices 102, 110 may be any type of device that can receive signals from, and transmit signals to, base stations and other UE devices. The UE devices typically operate in the communication system 100 that includes a plurality of base stations that each provide wireless service within a service area. As discussed below, it may be possible that the reporting UE device 102 and the non-reporting UE device 110 are served by different base stations and/or cells. A UE device may be in one of at least three radio resource control (RRC) states including RRC CONNECTED, RRC IDLE, and RRC INACTIVE. A UE device may be in IDLE mode relative to the base stations when communicating using sidelink (D2D) resources. As discussed below, the communication resources used to transmit the location information 104 may depend on the state of the reporting UE device 102.
The location information 104 may be conveyed to the base station 106 using any of various techniques. In one example, the reporting UE device 102 maintains a neighbor list (NL) which includes the neighbor UE devices of the reporting UE device 102 where at least some of the neighbor UE devices are non-reporting UE devices 110. The NL may include the locations of the non-reporting UE devices or parameters based on measurements made by the reporting UE device for each UE device in the NL. The NL may also include other parameters such as a Cell ID of the serving cell of each UE device. The location information 104 may be transmitted via direct signaling from the reporting UE device to the base station 106. The NL may also be transmitted using sidelink (SL) resources as a SL (D2D) signal where the base station 106 monitors the SL resources in order to receive the location information 104. In one example, a reporting UE device 102 transmits the location information 104 via dedicated signaling when in the RRC-CONNECTED mode and otherwise transmits the location information 104 via SL message using SL (D2D) resources such as when in the IDLE or INACTIVE states. In some situations, the reporting UE device 102 only transmits the location information 104 when in the CONNECTED state and, therefore, transitions from IDLE or INACTIVE to CONNECTED in order to transmit the location information 104.
The wireless signal 112 can be any type of electromagnetic, acoustic, infrared or light signal. Although in the examples discussed herein the neighbor device or non-reporting device includes a transmitter that transmits the wireless signal, other methods can be used to measure a signal from the UE device. The wireless signal 112 may be a reflected signal transmitted by the reporting UE device 102 or by another source. For example, sonar, radar, and lidar can be used by the reporting UE device 102 to generate a wireless signal (electromagnetic, acoustic or laser) that reflects off of the neighbor device such that the reflected signal is the wireless signal 112 that is received by the reporting UE device and measured. In addition, the wireless signal 112 may be a reflected signal of signal provided another source. In some situations, a camera can be used to capture a light signal reflecting off of an object near the non-reporting device. Such techniques may be more appropriate for situations where the non-reporting device is associated with a vehicle, for example. The reporting UE device 102, therefore, may include location processing capabilities to evaluate received wireless signals and determine, or at least estimate, the location 108 of the non-reporting UE device 110. Techniques utilizing image processing and/or machine vision technology, for example, may be used by the reporting UE device 102 to determine the location 108 of the non-reporting UE device 110. Any combination of measurements, calculated values, estimates and/or other information may be forwarded to the base station 106 to allow the base station 106 to determine the location 108. In addition, the base station 106 may use other entities to process the location information 104 in order to at least assist in determining the location 108. For example, the reporting UE device 102 may send measurements or values to the base station 106 in the location information 104 and the base station 106 may use a machine vision processor/entity to process the information to determine the location 108.
For the examples discussed herein, the non-reporting UE device 110 transmits an electromagnetic signal in accordance with the signaling and channels of the system 100. The wireless signal 112 may be beacon signal or reference signal that contains little or no data or may be a data signal. In some situations, the wireless signal 112 is a control signal. The wireless signal 112 may be an uplink signal transmitted to a base station 106, a sidelink signal (D2D signal) transmitted to the reporting UE device 102 and/or another UE device either via direct signaling transmission, broadcast transmission, or groupcast transmission.
In some situations, the reporting UE device 102 determines the location 108 of the non-reporting UE device 110 and stores the information for transmission to the base station 102 at the appropriate time. In other situations, the reporting UE device 102 only stores and transmits the distance, dA, 128 and the device angle, θ, 130 to the base station 106. In still other situations, the reporting UE device sends the AoA and the signal strength of the wireless signal. In such situations, the base station 102 determines the distance, dA, 128 and calculates the location 108 of the non-reporting UE device 110. Regardless of the specific contents of the location information 104, however, the base station 106 does not need to receive information or measure signals transmitted from the non-reporting UE device 110 to determine the location 108.
The controller 204 includes any combination of hardware, software, and/or firmware for executing the functions described herein as well as facilitating the overall functionality of the base station 200. An example of a suitable controller 204 includes code running on a microprocessor or processor arrangement connected to memory 205. The transmitter 206 includes electronics configured to transmit wireless signals. In some situations, the transmitter 206 may include multiple transmitters. The receiver 208 includes electronics configured to receive wireless signals. In some situations, the receiver 208 may include multiple receivers. The receiver 208 and transmitter 206 receive and transmit signals, respectively, through an antenna 210. The antenna 210 may include separate transmit and receive antennas. For the examples herein, the antenna 210 includes multiple transmit and receive antennas to allow for performing AoA measurements.
The transmitter 206 and receiver 208 in the example of
The transmitter 206 includes a modulator (not shown), and the receiver 208 includes a demodulator (not shown). The modulator modulates the signals to be transmitted as part of the downlink signals and can apply any one of a plurality of modulation orders. The demodulator demodulates any uplink signals received at the base station 200 in accordance with one of a plurality of modulation orders.
The base station 200 includes a communication interface 212 for transmitting and receiving messages with other base stations. The communication interface 212 may be connected to a backhaul or network enabling communication with other base stations. In some situations, the link between base stations may include at least some wireless portions. The communication interface 212, therefore, may include wireless communication functionality and may utilize some of the components of the transmitter 206 and/or receiver 208.
The UE device 300 includes at least a controller 302, a transmitter 304 and a receiver 306. The controller 302 includes any combination of hardware, software, and/or firmware for executing the functions described herein as well as facilitating the overall functionality of a communication device. An example of a suitable controller 302 includes code running on a microprocessor or processor arrangement connected to memory. The transmitter 304 includes electronics configured to transmit wireless signals. In some situations, the transmitter 304 may include multiple transmitters. The receiver 306 includes electronics configured to receive wireless signals. In some situations, the receiver 306 may include multiple receivers. The receiver 304 and transmitter 306 receive and transmit signals, respectively, through antenna 308. The antenna 308 may include separate transmit and receive antennas. In some circumstances, the antenna 308 may include multiple transmit and receive antennas. Multiple receive antennas facilitate AoA measurements. The antenna 308, therefore, may be an AoA capable antenna 140 discussed above.
The transmitter 304 and receiver 306 in the example of
The transmitter 306 includes a modulator (not shown), and the receiver 304 includes a demodulator (not shown). The modulator can apply any one of a plurality of modulation orders to modulate the signals to be transmitted as part of the uplink signals. The demodulator demodulates the downlink signals in accordance with one of a plurality of modulation orders.
In some situations, all of the neighbor devices listed in the neighbor list 400 may be served by the same cell while, in other situations, one or more neighbor devices may be served by different cells. Accordingly, the serving cell of a neighbor device may be the same as, or different from, the serving cell of the reporting UE device A 401. For the example of
The UE devices 401-404 may be in any one of the RRC states including RRC_CONNECTED, RRC_IDLE and RRC_INACTIVE. For the example, the neighbor list (NL) 400 is transmitted in an uplink channel to the base station 106 when the reporting UE device A 401 is in RRC_CONNECTED. When the reporting UE device A 401 is in IDLE or INACTIVE, the UE device A 401 transmits the neighbor list 400 over a D2D channel. In some situations, if certain criteria for reporting the NL 400 is satisfied when the reporting UE device is in IDLE or INACTIVE, the reporting UE device transitions to RRC CONNECTED and transmits the NL while in the CONNECTED state. The base station 106 monitors the D2D channel to receive the neighbor list 400 in such situations. As discussed below, the D2D channel used for transmitting NLs may be a dedicated resource for NL transmissions.
Although the neighbor devices 402-404 may be non-reporting UE devices 110, one or more of the neighbor devices in the neighbor list 400 may also function as reporting UE devices 102 and transmit a neighbor list (not shown in
The neighbor list (NL) 400 includes location information which, either directly or indirectly, at least provides the distances between the reporting UE device A and the neighbor UE devices. Accordingly, the NL 400 allows the base station 106 to determine the distance (d_AB) 409 between UE device A 401 and UE device B 402, the distance (d_AC) 410 between UE device A 401 and UE device C 403, and the distance (d_AX) 410 between UE device A 401 and UE device X 404. The NL 400 may also directly or indirectly provide the geographical location of each neighbor device. As discussed above, for example, the location information 104 may include AoA indicator or other information that can be used by the base station 106 to determine the location. Some examples of NLs are discussed below.
The link quality indicator 509-511 for each neighbor device 402-404 is determined by the UE device A 401 based on at least one received wireless signal, such as reference signal. The link quality indicator 509 is indicative of the quality of the communication link 405, the link quality indicator 510 is indicative of the quality of the communication link 406, and the link quality indicator 511 is indicative of the quality of the communication link 407. For the example, the quality indicators are signal-to-noise (SNR) levels. Other parameters can be used to indicate the link quality.
Each of the reporting devices 401, 602, 603 is an example of the reporting device 102 discussed above and sends location information 104 to the base station 106 in a NL message 604-606. The NL message 604 transmitted by the UE device A 401 includes UE device IDs identifying the neighbor devices of the UE device A as well as the associated location information for each neighbor device. For the example, the NL message 604 includes a UE B identifier 501, UE C identifier 502, UE D identifier 610 and a UE E identifier 611. Accordingly, the NL message 604 provides location information for neighbor devices including UE device B 402, UE device C 403, UE device D 602 and UE device E 603. The NL message 605 includes a UE A identifier 612, the UE B identifier 501, the UE C identifier 502, and a UE X identifier 503. Accordingly, the NL message 605 provides location information for neighbor devices including UE device A 401, UE device B 402, UE device C 403, and UE device X 503. The NL message 606 includes a UE A identifier 612, the UE B identifier 501, and the UE C identifier 502. As a result, the base station 106 receives location information 104 for the UE A device, UE B device, the UE C device from multiple NL messages 604-606. Each NL message may include location information that is less than adequate for the base station 106 to determine the location of the UE device. When the information from multiple NL messages is processed, however, the location may be determined. For example, the base station 106 can determine the location of a neighbor UE device of multiple reporting UE devices based on the distance provided by each reporting UE device and the location of each reporting UE device.
The location information request message 700 may also include several parameters that allow the base station 106 to manage location information reporting. One or more parameters may be omitted and one or more other parameters not shown in the example may be included in the location information request message 700 in some situations. For example, one or more of the parameters may be preconfigured and are not sent in a location information message. The parameters discussed, as well as other parameters that may be included in the information request 700, function as indicators indicating the criteria for measuring, creating, managing, and transmitting location information as established by the base station. Although the example of
The update periodicity indicators 705-707 indicate how often the reporting UE device should transmit the location information. For the example, each update periodicity indicator 705-707 is associated with a specific reporting UE device. In some situations, a single update periodicity indicator may be used for all of the reporting UE devices. Accordingly, the location information request message 700 may include only a single value for the update periodicity indicator. For the example of
Link change trigger indicators 709-711 indicate when the reporting UE device should provide a location information report (e.g., NL message) based on a detected change in communication link quality. For example, if the UE A device 401 detects a change in link quality to one of its neighbor devices that is greater than the ΔRSRP_A 709 link change trigger, the UE A device 401 sends a location information update (e.g., updated NL message) to the base station 106. Such an update may be in addition to the update periodicity schedule indicated by UDP_A 705. The link change trigger ΔRSRP_D 710 provides the trigger threshold for the UE D device 602 and the update link change trigger ΔRSRP_E 711 provides the trigger threshold for the UE E device 603. In some situations, a link change trigger may be used for all of the reporting UE devices. Accordingly, the location information request message 700 may include only a single value for the link change trigger to be used by all reporting UE devices.
The maximum number neighbor devices parameter 713-717 limits the number of neighbor devices included in the location information. Therefore, the number of devices listed in neighbor list messages transmitted by the UE A device 401 are limited to the value specified by MAXNL_A 713. Similarly, UE D device 602 limits its NL message to including a number of devices based on MAXNL_D 714 and UE E device 603 limits its NL message to including a number of devices based on MAXNL_E 715. In some situations, a maximum NL device parameter may be used for all of the reporting UE devices. Accordingly, the location information request message 700 may include only a single value for a maximum NL device parameter to be used by all reporting UE devices. For the example, each reporting UE device selects the closest neighbor devices and/or neighbor devices with the best link quality to include in the NL and, if the reporting device has more neighbor devices than specified by the maximum NL device parameter, only the top priority devices are included in the NL. Therefore, if the reporting UE device identifies seven neighbor devices and the maximum NL device parameter is 6, the reporting UE device limits the NL to six devices and omits the neighbor device with the lowest priority. Where the reporting UE device determines the distance to each neighbor device, the neighbor devices may be prioritized based on distance from least to greatest and the only the top neighbor devices with the least distances are included in the NL. The base station may determine the maximum NL device parameters based on several factors, such as the number of reporting UE devices in an area, the communication traffic load at the base station, and/or the available communication resources. For example, where the NL messages are transmitted via RRC messages, NLs with a large number of neighbor devices may need to be segmented and sent over more than one RRC message. As a result, limiting the number of neighbor devices in the NL may reduce the number of transmitted RRC messages.
The destination identity (ID) indicator 717-719 identifies at least one destination ID that is selected for transmission of the location information. Destination IDs are used in D2D transmissions where the intended recipient of the D2D transmission is identified by the destination ID. Typically, the destination ID indicates whether the transmission is a broadcast or unicast transmission or is transmission intended for a group. The destination IDs 717-719 may be different and some may be the same for two or more reporting UE devices. In some situations, the same device IDs may be used for all of the reporting UE devices. Accordingly, the location information request message 700 may include only a single value or a single set of values for the destination ID to be used by all reporting UE devices. In some situations, the destination ID provides an additional or alternative parameter for identifying the neighbor UE devices. The destination ID may be the Layer 2 ID of the neighbor UE.
Each NL discovery pool indicator 721-723 identifies one or more discovery resources for transmission of the location information. Each NL discovery pool indicator 721-723, therefore, may identify a pool of discovery resources reserved only for NL message transmissions. The discovery process is time-critical since the UE devices are moving and the locations are changing over time. Utilizing a dedicated NL discovery resource pool facilitates timely discovery transmissions. The resources identified by each NL discovery pool indicator 721-723 may the same or different for each reporting UE device. In some situations, the same indicators 721-723 may be used for all of the reporting UE devices. Accordingly, the location information request message 700 may include only a single value or a single set of values for the NL discovery pool indicator to be used by all reporting UE devices.
The minimum number neighbor devices parameter 725-727 requires that a transmitted location information, such as NL, have a minimum number of neighbor devices. For the example, the number of neighbor devices is counted as the number of neighbor devices meeting the other criteria for inclusion in the location information. In some situations, however, the number of neighbor devices is counted as the total number of neighbor devices detected by the reporting UE device. For the example, therefore, the reporting UE device does not transmit the location information when the total number of neighbor devices listed in the NL is less than the minimum threshold indicated by the minimum number neighbor devices parameter 725-727. The minimum number of devices listed in neighbor list messages transmitted by the UE A device 401 is limited to the value specified by MINNL_A 725. Similarly, UE D device 602 only transmits an NL message that includes a number of devices greater then or equal to MINNL_D 726 and UE E device 603 transmits NL messages that include a number of devices greater than or equal to MINNL_E 727. In some situations, a minimum NL device parameter may be used for all of the reporting UE devices. Accordingly, the location information request message 700 may include only a single value for a minimum NL device parameter to be used by all reporting UE devices.
Minimum link quality indicators 729-731 indicate the minimum link quality of the communication link to a neighbor device required for the neighbor device to be included in transmitted location information, such as an NL message. For the example, the minimum link quality parameter is a minimum RSRP value. Other types of values, however, can also be used. Signal to noise ratio (SNR) and other ratios, for example, may be sued in some situations. Although for the example the link quality is related to the sidelink communication link between the neighbor device and the reporting UE device, the link quality may be related to a non-communication link in some situations. Where the wireless signal 112 that is measured by the reporting UE device is a sound or light signal, for example, the link quality may be related to the distance between the neighbor device and the reporting UE device. The minimum link quality parameter, therefore, may indirectly signify the quality of the communication link between the two devices. In addition, the link quality parameter may relate to a communication link that is not established in some situations. For the example fo
The various parameters discussed with reference to
At transmission 802, the base station 106 transmits a NL request message to the reporting devices 401, 602. For the example, the NL request message is broadcast in a SIB and at least identifies the UE devices that are instructed to provide location information of other UE devices. As discussed above, the NL request message can be sent to specific UE devices via dedicated signaling in other examples.
At transmission 804, the base station provides the transmission power information regarding the discovery signals (or other references signals) that will be transmitted by neighbor devices. For the example, the base station indicates a fixed power level of the wireless signal either in a SIB or via dedicated signaling. In some situations, other parameters provided by the base station may be used by the UE device to determine the power level of the wireless signal. In some situations, the transmission 804 can be omitted and the neighbor devices transmitting the discovery signals provide the transmission power information to the reporting UE devices. In other situations, the UE device may determine the power level using open loop power control (OLPC) and other information.
At transmission 810, a non-reporting neighbor device 502 sends a discovery signal which is received by the reporting UE devices 401, 602. The reporting UE A device 401 measures the discovery signal at event 812 and the reporting UE D device 601 measures the discovery signal at event 814. Each reporting UE device at least measures the received signal power. In some situations, the reporting UE device measures the quality of the discovery signal to determine the D2D communication link quality. Where the device has multiple antennas and the appropriate capabilities, the reporting UE device also measures the AoA of the received discovery signal.
At event 816, the reporting device UE A device 401 generates a neighbor list (NL). The NL includes at least UE ID of the non-reporting UE device 403 as well as the calculated distance between the reporting UE A device 401 and the non-reporting UE device 403. In some situations, the NL includes the received signal power of the discovery signals without including the calculated distance. For the example, the NL includes all of the neighbor devices that meet a minimum threshold of link quality and includes the distance to each neighbor device as well as a link quality indicator for each communication link to each neighbor device.
At event 818, the reporting device UE D device 602 generates a neighbor list (NL). The NL includes at least UE ID of the non-reporting UE device 403 as well as the calculated distance between the reporting UE D device 602 and the non-reporting UE device 403. In some situations, the NL includes the received signal power of the discovery signals without including the calculated distance. For the example, the NL includes all of the neighbor devices that meet a minimum threshold of link quality and includes the distance to each neighbor device as well as a link quality indicator for each communication link to each neighbor device.
The reporting UE device D is in either the IDLE or INACTIVE state and the reporting UE device A 401 is in the CONNECTED state in the example. The reporting UE device D 602 broadcasts a NL message at transmission 820 using D2D resources assigned by the base station 106. For the example, the resources are specified in the NL request message received at transmission 802 although other techniques can be used to convey the resources for broadcasting the NL message. The NL message can be received by all of the neighbor devices of the UE D device 602. The base station 106 also receives the broadcasted NL message. The NL message includes at least a portion of the NL generated at event 818.
The reporting UE device A 401 sends an NL message at transmission 822 using dedicated uplink resources assigned by the base station 106. For the example, the resources are specified in the NL request message received at transmission 802 although other techniques can be used to convey the resources for direct signaling of the NL message. The NL message includes at least a portion of the NL generated at event 816.
The base station 106 selects one or more UE devices that should report the location information of their neighbor devices from the plurality of devices 902. The selected UE devices then perform the functions of a reporting UE device 104. The number for UE devices may selected based on at least factors related to the communication traffic-load at the base station. With higher traffic loads, the base station 106 may select fewer UE devices. With lighter communication traffic, the base station 106 may select a larger number of reporting UE devices. The number of reporting UE devices may be based on the distribution of the UE devices within the group in some situations. Where the UE devices are distributed in two distinct sets in the group, for example, two UE devices rather than one device may be selected for reporting as compared to a situation where all of the UE devices are close to each other and are distributed more uniformly. As discussed above, maintaining location information from more than one reporting UE device allows the base station to keep tracking the cluster if one of the reporting UE devices leaves the cluster. Where the speed of the reporting UE changes significantly compared to the other UE devices in the group, for example, the reporting UE may no longer be within the moving geographical area 904.
The selection of the specific UE devices may be based on the communication link quality to each UE device 401-404, 602 where the base station selects UE devices having the best link quality. Accordingly, the base station may measure received signals transmitted from the UE devices, such as uplink signals, and select UE devices having the highest received signal strength. For the example, base station 106 also selects the reporting UE devices based on measurement capabilities of the UE device. UE devices having multiple antennas and the ability to measure AoA of signals may be preferred to other UE devices, for example. Examples of other measurement capabilities that may be considered include whether the UE device has a GNSS receiver and whether the UE device has indoor location determination capability. In some situations, the selection of the reporting UE device may be based on other factors such as whether a UE device is a platoon leader (cluster head) for the group, for example. Since the cluster head is communicating with other devices in the group, the cluster head may be selected as a default reporting UE device. For the example, the base station selects UE device A 104 as a cluster head as a reporting UE device and also selects UE device D 602 as a reporting UE device.
As discussed above, the parameters related to how and when the location information is reported may be included in a location information request 118. The location reporting parameters may be based on several factors where some examples include, the mobility of the cluster relative to the base station, the mobility of UE devices relative to each other, the traffic-load at the base station, and the measurement capabilities of the UE device. The update periodicity (frequency of reporting) may be determined based on the mobility of the cluster relative to the base station and/or the mobility of UE devices relative to each other. Where the cluster is moving at relatively high speed, for example, the base station may require the reporting UE devices to provide location information more frequently as compared to lower speeds. Where the base station determines the UE devices are moving relative to each other at a high rate, the base station may select a lower update period (higher frequency for reporting). The link change triggers may also be determined based on the mobility.
Clearly, other embodiments and modifications of this invention will occur readily to those of ordinary skill in the art in view of these teachings. The above description is illustrative and not restrictive. This invention is to be limited only by the following claims, which include all such embodiments and modifications when viewed in conjunction with the above specification and accompanying drawings. The scope of the invention should, therefore, be determined not with reference to the above description, but instead should be determined with reference to the appended claims along with their full scope of equivalents.
The present application claims the benefit of priority to Provisional Application No. 63/312,333 entitled “Device-to-Device Assisted Positioning”, docket number TPRO 00369 US, filed Feb. 21, 2022, and to Provisional Application No. 63/313,864 entitled “Device-to-Device Assisted Positioning”, docket number TPRO 00370 US, filed Feb. 25, 2022, both assigned to the assignee hereof and hereby expressly incorporated by reference in their entirety. This application is related to PCT Patent Application entitled “DEVICE LOCATION BASED ON NON-REPORTING DEVICE LOCATION PROVIDED BY REPORTING DEVICE”, docket number TUTL 00369A PC, and to PCT Patent Application entitled “DEVICE LOCATION SIGNALING BASED ON NON-REPORTING DEVICE LOCATION PROVIDED BY REPORTING DEVICE”, docket number TUTL 00369B PC, both assigned to the assigned hereof, filed concurrently with this application and incorporated by reference in their entirety herein.
Filing Document | Filing Date | Country | Kind |
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PCT/US2023/013190 | 2/16/2023 | WO |
Number | Date | Country | |
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63312333 | Feb 2022 | US | |
63313864 | Feb 2022 | US |