JPWO2021188208A5 - - Google Patents

Description

[0222] While the above disclosure indicates exemplary aspects of the disclosure, various changes and modifications may be made herein without departing from the scope of the disclosure as defined by the appended claims. Note that this can be done. The functions, steps and/or actions of the method claims according to aspects of the disclosure described herein do not need to be performed in any particular order. Furthermore, although elements of this disclosure may be described or claimed in the singular, the plural is contemplated unless limitation to the singular is explicitly stated.
The invention described in the original claims of this application will be added below.
[C1] A method for wireless communication, implemented in a supporting user equipment (UE), comprising: transmitting a request to perform a positioning procedure to the target UE via a side link between the supporting UE and the target UE. wherein both the assisting UE and the target UE are outside network coverage;
determining, based at least on the request, a set of time and/or frequency resources for transmitting one or more positioning reference signals for the positioning procedure; , to the target UE via the set of time and/or frequency resources;
A method of providing.
[C2] The method of C1, wherein the assisting UE determines the set of time and/or frequency resources based on a deterministic function of one or more parameters.
[C3] The method of C2, further comprising transmitting an indication of the set of time and/or frequency resources to the target UE via the sidelink.
[C4] deriving the one or more parameters relative to the time and/or frequency resources at which the indication of the set of time and/or frequency resources is transmitted to the target UE; The method according to C3, further comprising:
[C5] the indication of the set of time and/or frequency resources to the target in a first sidelink control information (SCI-1) message and/or a second sidelink control information (SCI-2) message; The method of C4, further comprising transmitting to the UE.
[C6] The method of C2, further comprising deriving the one or more parameters relative to time and/or frequency resources at which the request to perform the positioning procedure is received. .
[C7] The method of C2, further comprising determining time domain resources of the set of time and/or frequency resources based on the one or more parameters.
[C8] The method of C2, wherein one of the one or more parameters comprises a subchannel of a PSCCH or PSSCH on which the request to perform the positioning procedure is received.
[C9] The method of C2, wherein one of the one or more parameters comprises a source identifier of the target UE.
[C10] The method of C2, wherein one of the one or more parameters comprises a destination identifier of a PSCCH on which the request to perform the positioning procedure is received.
[C11] The method of C10, wherein the destination identifier is associated with unicast, group cast, or broadcast.
[C12] The method of C2, wherein one of the one or more parameters comprises a pseudorandom variable or a scrambling seed.
[C13] The method according to C12, wherein the pseudo random variable or the scrambling seed is configured by an upper layer of the assisting UE.
[C14] The method of C2, wherein the selection of one of the one or more parameters is configured by an upper layer of the assisting UE.
[C15] The request to perform the positioning procedure includes one or more frequency domain allocation fields dedicated to signaling frequency domain resources of the set of time and/or frequency resources. the method of.
[C16] The method of C15, wherein the request to perform the positioning procedure is received in SCI-2 via the sidelink.
[C17] A frequency domain allocation field of a sidelink control information (SCI) channel associated with the request to perform the positioning procedure comprises: The method of C1, wherein the method is used only to schedule frequency domain resources for.
[C18] A first set of frequency domain allocation fields of SCI channels associated with the request to perform the positioning procedure are used to schedule data;
A second set of frequency domain allocation fields of the SCI channel associated with the request to perform the positioning procedure is configured to determine the frequency domain of the set of time and/or frequency resources for the one or more positioning reference signals. The method of C1 used to schedule resources.
[C19] said second set of frequency domain allocation fields for said one or more positioning reference signals in a differential manner with respect to scheduling of said data by said first set of frequency domain allocation fields; The method of C18, providing scheduling of.
[C20] The method of C1, wherein the request to perform the positioning procedure is received via a physical sidelink control channel (PSCCH) and/or a physical sidelink shared channel (PSSCH) of the sidelink.
[C21] The method of C1, wherein the positioning procedure comprises a round trip time (RTT) positioning procedure.
[C22] A method for wireless communication implemented at a target user equipment (UE), the method comprising:
transmitting a request to perform a positioning procedure to the at least one assisting UE via a side link between the at least one assisting UE and the target UE; Both UEs are out of network coverage,
determining, at least based on the request, a set of time and/or frequency resources for transmitting one or more positioning reference signals from the at least one assisting UE for the positioning procedure;
transmitting the one or more positioning reference signals to the at least one assisting UE via the set of time and/or frequency resources;
A method of providing.
[C23] The method of C22, wherein the target UE determines the set of time and/or frequency resources based on a deterministic function of one or more parameters.
[C24] The method of C23, further comprising transmitting an indication of the set of time and/or frequency resources to the at least one assisting UE via the sidelink.
[C25] deriving the one or more parameters relative to the time and/or frequency resources at which the indication of the set of time and/or frequency resources is transmitted to the at least one assisting UE; The method according to C24, further comprising:
[C26] The indication of the set of time and/or frequency resources in the first sidelink control information (SCI-1) message and/or the second sidelink control information (SCI-2) message in the at least The method of C25, further comprising transmitting to one assisting UE.
[C27] The method of C23, further comprising deriving the one or more parameters relative to time and/or frequency resources under which the request to perform the positioning procedure is sent. .
[C28] The method of C23, further comprising determining time domain resources of the set of time and/or frequency resources based on the one or more parameters.
[C29] The method of C23, wherein one of the one or more parameters comprises a subchannel of a PSCCH or PSSCH on which the request to perform the positioning procedure is sent.
[C30] The method of C23, wherein one of the one or more parameters comprises a source identifier of the target UE.
[C31] The method of C23, wherein one of the one or more parameters comprises a destination identifier of a PSCCH to which the request to perform the positioning procedure is sent.
[C32] The method according to C31, wherein the destination identifier is associated with unicast, group cast, or broadcast.
[C33] The method of C23, wherein one of the one or more parameters comprises a pseudorandom variable or a scrambling seed.
[C34] The method according to C33, wherein the pseudo random variable or the scrambling seed is configured by an upper layer of the target UE.
[C35] The method of C23, wherein the selection of one of the one or more parameters is configured by an upper layer of the target UE.
[C36] The request to perform the positioning procedure includes one or more frequency domain allocation fields dedicated to signaling frequency domain resources of the set of time and/or frequency resources. the method of.
[C37] The method of C36, wherein the request to perform the positioning procedure is sent over the sidelink in SCI-2.
[C38] A frequency domain allocation field of a sidelink control information (SCI) channel associated with the request to perform the positioning procedure comprises: The method of C22, wherein the method is used solely for scheduling frequency domain resources of.
[C39] A first set of frequency domain allocation fields of SCI channels associated with the request to perform the positioning procedure are used to schedule data;
A second set of frequency domain allocation fields of the SCI channel associated with the request to perform the positioning procedure is configured to determine the frequency domain of the set of time and/or frequency resources for the one or more positioning reference signals. The method of C22 used to schedule resources.
[C40] the second set of frequency domain allocation fields for the one or more positioning reference signals in a differential manner with respect to the scheduling of the data by the first set of frequency domain allocation fields; The method of C39, which provides scheduling of.
[C41] The method according to C22, further comprising transmitting the request to perform the positioning procedure via a physical sidelink control channel (PSCCH) and/or a physical sidelink shared channel (PSSCH) of the sidelink. Method.
[C42] The method of C22, wherein the positioning procedure comprises a round trip time (RTT) positioning procedure.
[C43] Memory and
at least one transceiver;
at least one processor communicatively coupled to the memory and the at least one transceiver;
an assisted user equipment (UE) comprising: the at least one processor;
receiving a request to perform a positioning procedure from the target UE via a side link between the assisting UE and the target UE, wherein both the assisting UE and the target UE are out of network coverage; ,
determining, based at least on the request, a set of time and/or frequency resources for transmitting one or more positioning reference signals for the positioning procedure; or causing a plurality of positioning reference signals to be transmitted to the target UE via the set of time and/or frequency resources;
An assisting UE configured to perform.
[C44] The assistance UE of C43, wherein the at least one processor determines the set of time and/or frequency resources based on a deterministic function of one or more parameters.
[C45] The at least one processor:
The assisting UE of C44, further configured to cause an indication of the set of time and/or frequency resources to be transmitted from the at least one transceiver to the target UE via the sidelink.
[C46] The at least one processor:
further configured to derive the one or more parameters relative to the time and/or frequency resources at which the indication of the set of time and/or frequency resources is transmitted to the target UE; In addition, the support UE described in C45.
[C47] The at least one processor:
transmitting the indication of the set of time and/or frequency resources from the at least one transceiver to a first sidelink control information (SCI-1) message and/or a second sidelink control information (SCI-2) message; The assisting UE of C46, further configured to cause the target UE to transmit within.
[C48] The at least one processor:
The assisting UE according to C44, further configured to derive the one or more parameters relative to time and/or frequency resources at which the request to perform the positioning procedure is received. .
[C49] The at least one processor:
The assisting UE of C44, further configured to determine time domain resources of the set of time and/or frequency resources based on the one or more parameters.
[C50] The assisting UE of C44, wherein one of the one or more parameters comprises a subchannel of a PSCCH or PSSCH on which the request to perform the positioning procedure is received.
[C51] The assisting UE of C44, wherein one of the one or more parameters comprises a source identifier of the target UE.
[C52] The assisting UE of C44, wherein one of the one or more parameters comprises a destination identifier of a PSCCH on which the request to perform the positioning procedure is received.
[C53] The assisting UE according to C52, wherein the destination identifier is related to unicast, group cast, or broadcast.
[C54] The assisting UE of C44, wherein one of the one or more parameters comprises a pseudo-random variable or a scrambling seed.
[C55] The support UE according to C54, wherein the pseudo random variable or the scrambling seed is configured by an upper layer of the support UE.
[C56] The assistance UE according to C44, wherein the selection of one of the one or more parameters is configured by an upper layer of the assistance UE.
[C57] The request to perform the positioning procedure includes one or more frequency domain allocation fields dedicated to signaling frequency domain resources of the set of time and/or frequency resources. Support UE.
[C58] The assisting UE of C57, wherein the request to perform the positioning procedure is received via the sidelink in SCI-2.
[C59] A frequency domain allocation field of a sidelink control information (SCI) channel associated with the request to perform the positioning procedure comprises the set of time and/or frequency resources for the one or more positioning reference signals. The assisting UE according to C43, which is used only to schedule frequency domain resources for.
[C60] A first set of frequency domain allocation fields of SCI channels associated with the request to perform the positioning procedure are used to schedule data;
A second set of frequency domain allocation fields of the SCI channel associated with the request to perform the positioning procedure is configured to determine the frequency domain of the set of time and/or frequency resources for the one or more positioning reference signals. The assisting UE according to C43, used to schedule resources.
[C61] said second set of frequency domain allocation fields for said one or more positioning reference signals in a differential manner with respect to scheduling of said data by said first set of frequency domain allocation fields; The assisting UE of C60 provides scheduling of.
[C62] The assisting UE of C43, wherein the request to perform the positioning procedure is received via a physical sidelink control channel (PSCCH) and/or a physical sidelink shared channel (PSSCH) of the sidelink.
[C63] The assisting UE of C43, wherein the positioning procedure comprises a round trip time (RTT) positioning procedure.
[C64] Memory and
at least one transceiver;
at least one processor communicatively coupled to the memory and the at least one transceiver;
a target user equipment (UE) comprising: the at least one processor;
causing a request to perform a positioning procedure to be transmitted from at least one transceiver to the at least one assisting UE via a side link between the at least one assisting UE and the target UE; and the at least one assisting UE are out of network coverage;
determining, at least based on the request, a set of time and/or frequency resources for transmitting one or more positioning reference signals from the at least one assisting UE for the positioning procedure;
causing the one or more positioning reference signals to be transmitted from the at least one transceiver to the at least one assisting UE via the set of time and/or frequency resources;
A target UE configured to perform.
[C65] The target UE of C64, wherein the at least one processor determines the set of time and/or frequency resources based on a deterministic function of one or more parameters.
[C66] The at least one processor:
The target UE of C65, further configured to cause an indication of the set of time and/or frequency resources to be transmitted from the at least one transceiver to the at least one assisting UE via the sidelink.
[C67] The at least one processor:
deriving the one or more parameters relative to the time and/or frequency resources at which the indication of the set of time and/or frequency resources is transmitted to the at least one assisting UE; The target UE according to C66, further configured.
[C68] The at least one processor:
transmitting the indication of the set of time and/or frequency resources from the at least one transceiver to a first sidelink control information (SCI-1) message and/or a second sidelink control information (SCI-2) message; The target UE of C67, further configured to cause the at least one assisting UE to transmit within the target UE.
[C69] The at least one processor:
The target UE according to C65, further configured to derive the one or more parameters relative to time and/or frequency resources at which the request to perform the positioning procedure is sent. .
[C70] The at least one processor:
The target UE of C65, further configured to determine time domain resources of the set of time and/or frequency resources based on the one or more parameters.
[C71] The target UE of C65, wherein one of the one or more parameters comprises a subchannel of a PSCCH or PSSCH on which the request to perform the positioning procedure is sent.
[C72] The target UE of C65, wherein one of the one or more parameters comprises a source identifier of the target UE.
[C73] The target UE of C65, wherein one of the one or more parameters comprises a destination identifier of a PSCCH on which the request to perform the positioning procedure is sent.
[C74] The target UE according to C73, wherein the destination identifier is associated with unicast, group cast, or broadcast.
[C75] The target UE of C65, wherein one of the one or more parameters comprises a pseudo-random variable or a scrambling seed.
[C76] The target UE according to C75, wherein the pseudo random variable or the scrambling seed is configured by an upper layer of the target UE.
[C77] The target UE according to C65, wherein the selection of one of the one or more parameters is configured by an upper layer of the target UE.
[C78] The request to perform the positioning procedure includes one or more frequency domain allocation fields dedicated to signaling frequency domain resources of the set of time and/or frequency resources. target UE.
[C79] The target UE of C78, wherein the request to perform the positioning procedure is sent over the sidelink in SCI-2.
[C80] A frequency domain allocation field of a sidelink control information (SCI) channel associated with the request to perform the positioning procedure comprises the set of time and/or frequency resources for the one or more positioning reference signals. A target UE according to C64, which is used only to schedule frequency domain resources for the target UE.
[C81] A first set of frequency domain allocation fields of SCI channels associated with the request to perform the positioning procedure are used to schedule data;
A second set of frequency domain allocation fields of the SCI channel associated with the request to perform the positioning procedure is configured to determine the frequency domain of the set of time and/or frequency resources for the one or more positioning reference signals. A target UE as described in C64 used to schedule resources.
[C82] said second set of frequency domain allocation fields for said one or more positioning reference signals in a differential manner with respect to scheduling of said data by said first set of frequency domain allocation fields; The target UE of C81.
[C83] The target UE of C64, wherein the request to perform the positioning procedure is received via a physical sidelink control channel (PSCCH) and/or a physical sidelink shared channel (PSSCH) of the sidelink.
[C84] The target UE of C64, wherein the positioning procedure comprises a round trip time (RTT) positioning procedure.
[C85] A supporting user equipment (UE) comprising:
means for receiving a request to perform a positioning procedure from the target UE via a side link between the assisting UE and the target UE, wherein both the assisting UE and the target UE have network coverage. outside,
means for determining, based at least on the request, a set of time and/or frequency resources for transmitting one or more positioning reference signals for the positioning procedure;
means for transmitting the one or more positioning reference signals to the target UE via the set of time and/or frequency resources;
A support UE comprising:
[C86] A target user equipment (UE), comprising:
means for transmitting a request to perform a positioning procedure to the at least one assisting UE via a side link between the at least one assisting UE and the target UE; Both of the two supporting UEs are out of network coverage,
means for determining, based at least on the request, a set of time and/or frequency resources for transmitting one or more positioning reference signals from the at least one assisting UE for the positioning procedure;
means for transmitting the one or more positioning reference signals to the at least one assisting UE via the set of time and/or frequency resources;
A target UE comprising:
[C87] A non-transitory computer-readable medium having stored thereon a set of instructions, the set of instructions comprising one or more instructions, the one or more instructions being transmitted to one of assisting user equipment (UE). when executed by one or more processors,
receiving a request to perform a positioning procedure from the target UE via a side link between the assisting UE and the target UE, wherein both the assisting UE and the target UE are outside of network coverage; be,
determining, based at least on the request, a set of time and/or frequency resources for transmitting one or more positioning reference signals for the positioning procedure; , to the target UE via the set of time and/or frequency resources;
a non-transitory computer-readable medium that causes the assisting UE to perform the following operations.
[C88] A non-transitory computer-readable medium having stored thereon a set of instructions, said set of instructions comprising one or more instructions, said one or more instructions being one of said target user equipment (UE). when executed by one or more processors,
transmitting a request to perform a positioning procedure to the at least one assisting UE via a side link between the at least one assisting UE and the target UE; Both UEs are out of network coverage,
determining, at least based on the request, a set of time and/or frequency resources for transmitting one or more positioning reference signals from the at least one assisting UE for the positioning procedure;
transmitting the one or more positioning reference signals to the at least one assisting UE via the set of time and/or frequency resources;
a non-transitory computer-readable medium that causes the target UE to perform.

Claims (15)

A method for wireless communication implemented in an assisting user equipment (UE), the method comprising:
receiving a request to perform a positioning procedure from the target UE via a side link between the assisting UE and the target UE, wherein both the assisting UE and the target UE are outside of network coverage; be,
determining, based at least on the request, a set of frequency resources for transmitting one or more positioning reference signals for the positioning procedure ;
a first set of frequency domain allocation fields of SCI channels associated with the request to perform the positioning procedure are used to schedule data;
A second set of frequency domain allocation fields of the SCI channel associated with the request to perform the positioning procedure is configured to determine the frequency domain of the set of time and/or frequency resources for the one or more positioning reference signals. the second set of frequency domain allocation fields of the SCI channel is used to schedule resources, the second set of frequency domain allocation fields of the SCI channel being in addition to the first set of frequency domain fields of the SCI channel;
transmitting the one or more positioning reference signals to the target UE via the set of frequency resources;
A method of providing. A method for wireless communication implemented at a target user equipment (UE), the method comprising:
transmitting a request to perform a positioning procedure to the at least one assisting UE via a side link between the at least one assisting UE and the target UE; Both UEs are out of network coverage,
determining, at least based on the request, a set of time and/or frequency resources for transmitting one or more positioning reference signals to the at least one assisting UE for the positioning procedure;
a first set of frequency domain allocation fields of SCI channels associated with the request to perform the positioning procedure are used to schedule data;
A second set of frequency domain allocation fields of the SCI channel associated with the request to perform the positioning procedure is configured to determine the frequency domain of the set of time and/or frequency resources for the one or more positioning reference signals. the second set of SCI channel frequency domain allocation fields used to schedule resources is in addition to the first set of SCI channel frequency domain allocation fields;
transmitting the one or more positioning reference signals to the at least one assisting UE via the set of frequency resources;
A method of providing. 3. The method of claim 1 or 2 , wherein the assisting UE or target UE , respectively: further determines the set of time resources based on a deterministic function of one or more parameters. deriving the one or more parameters with respect to time and/or frequency resources when the indication of the set of time and/or frequency resources is transmitted to the target UE or at least one assisting UE, respectively;
the indication of the set of time and/or frequency resources via the sidelink in a first sidelink control information (SCI-1) message and/or a second sidelink control information (SCI-2) message; and transmitting to the target UE or at least one supporting UE , respectively ;
4. The method of claim 3 , further comprising: 4. The method of claim 3 , further comprising deriving the one or more parameters relative to time and/or frequency resources at which the request to perform the positioning procedure is received. further comprising determining time domain resources of the set of time and/or frequency resources based on the one or more parameters, one of the one or more parameters comprising:
a subchannel of the PSCCH or PSSCH on which the request to perform the positioning procedure is received;
a source identifier of the target UE, or
a destination identifier of the PSCCH on which the request to perform the positioning procedure is received;
Equipped with
4. The method of claim 3 , wherein the destination identifier is associated with unicast, groupcast, or broadcast . 3. The method of claim 2, wherein one of the one or more parameters comprises a pseudo- random variable or scrambling seed configured by upper layers of the assisting UE . 4. The method of claim 3 , wherein the selection of one of the one or more parameters is configured by a respective upper layer of the assisting UE or target UE . 2. The request to perform the positioning procedure includes one or more frequency domain allocation fields dedicated to signaling frequency domain resources of the set of time and/or frequency resources. Method. 10. The method of claim 9 , wherein the request to perform the positioning procedure is received in SCI-2 via the sidelink. The second set of frequency domain allocation fields provides scheduling for the one or more positioning reference signals in a differential manner with respect to the scheduling of the data by the first set of frequency domain allocation fields. 3. The method of claim 1 or 2 , wherein the method provides: 2. The method of claim 1, wherein the request to perform the positioning procedure is received via a Physical Sidelink Control Channel (PSCCH) and/or a Physical Sidelink Shared Channel (PSSCH) of the sidelink. 2. The method of claim 1, wherein the positioning procedure comprises a round trip time (RTT) positioning procedure. An assisting user equipment (UE) comprising:
means for receiving a request to perform a positioning procedure from the target UE via a side link between the assisting UE and the target UE, wherein both the assisting UE and the target UE have network coverage. outside,
means for determining, based at least on the request, a set of frequency resources for transmitting one or more positioning reference signals for the positioning procedure;
a first set of frequency domain allocation fields of SCI channels associated with the request to perform the positioning procedure are used to schedule data;
A second set of frequency domain allocation fields of the SCI channel associated with the request to perform the positioning procedure is configured to determine the frequency domain of the set of time and/or frequency resources for the one or more positioning reference signals. the second set of frequency domain allocation fields of the SCI channel is used to schedule resources, the second set of frequency domain allocation fields of the SCI channel being in addition to the first set of frequency domain fields of the SCI channel;
means for transmitting the one or more positioning reference signals to the target UE via the set of frequency resources;
A support UE comprising: A target user equipment (UE), the target user equipment (UE) comprising:
means for transmitting a request to perform a positioning procedure to the at least one assisting UE via a side link between the at least one assisting UE and the target UE; Both of the two supporting UEs are out of network coverage,
means for determining, based at least on the request, a set of time and/or frequency resources in transmitting one or more positioning reference signals to the at least one assisting UE for the positioning procedure ; In,
a first set of frequency domain allocation fields of SCI channels associated with the request to perform the positioning procedure are used to schedule data;
A second set of frequency domain allocation fields of the SCI channel associated with the request to perform the positioning procedure is configured to determine the frequency domain of the set of time and/or frequency resources for the one or more positioning reference signals. the second set of frequency domain allocation fields of the SCI channel is used to schedule resources, the second set of frequency domain allocation fields of the SCI channel being in addition to the first set of frequency domain fields of the SCI channel;
means for transmitting the one or more positioning reference signals to the at least one assisting UE via the set of frequency resources;
A target UE comprising: