JPWO2020154289A5 - - Google Patents

Description

[0359]
The description herein is provided to enable any person skilled in the art to make or use the disclosure. Various modifications of this disclosure will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other variations without departing from the scope of this disclosure. . Accordingly, this disclosure is not to be limited to the examples and designs described herein, but is to be accorded the broadest scope consistent with the principles and novel features disclosed herein.
The invention described in the scope of claims at the time of filing of the present application will be additionally described below.
[C1]
In an apparatus for wireless communication by a user equipment (UE), comprising:
means for receiving an indication of a positioning reference signal configuration for a transmit/receive point;
means for determining, based at least in part on said positioning reference signal configuration, reference points within a carrier bandwidth of a component carrier and frequency domain allocations for positioning reference signals with respect to said reference points;
means for transmitting said positioning reference signal or measuring said positioning reference signal based at least in part on said frequency domain allocation.
[C2]
The means for determining the frequency domain allocation comprises:
The apparatus of C1, comprising means for determining a start of the frequency domain allocation with respect to the reference point and a number of bandwidths or resource blocks of the frequency domain allocation based at least in part on the positioning reference signal configuration.
[C3]
means for generating a measurement of the positioning reference signal based at least in part on the frequency domain allocation;
and means for transmitting said measurements to a network entity.
[C4]
The apparatus of C1, further comprising means for determining a positioning estimate for the UE based at least in part on measuring the positioning reference signal within the frequency domain allocation.
[C5]
means for receiving positioning information indicative of a first location of said transmission/reception point and at least a second location of at least a second transmission/reception point based at least in part on transmitting said positioning reference signal;
and determining a positioning estimate for the UE based at least in part on the positioning information.
[C6]
Based at least in part on transmitting the positioning reference signal, a first measurement and a first location of the transmit/receive point and at least a second measurement and a second location of at least a second transmit/receive point. means for receiving a positioning reference signal measurement report indicative of a location;
and determining a positioning estimate for the UE based at least in part on the positioning reference signal measurement report.
[C7]
The apparatus of C1, wherein the reference point is different from a starting resource block of the carrier bandwidth.
[C8]
means for determining a scrambling sequence for the positioning reference signal based at least in part on the reference points;
means for scrambling a first sequence with said scrambling sequence to generate a positioning reference sequence;
and means for generating said positioning reference signal based at least in part on said positioning reference sequence.
[C9]
within the frequency domain allocation, using a subcarrier spacing of the carrier bandwidth that is different than a subcarrier spacing of an active bandwidth portion within the carrier bandwidth configured for the UE, the positioning criteria The apparatus of C7, further comprising means for measuring the signal.
[C10]
The apparatus of C1, wherein the reference point is a starting resource block of the carrier bandwidth.
[C11]
Within the frequency domain allocation, the positioning using a subcarrier spacing of the carrier bandwidth that is the same as a subcarrier spacing of an active bandwidth portion within the carrier bandwidth configured for the UE. The apparatus of C10, further comprising means for measuring a reference signal.
[C12]
means for determining a scrambling sequence for said positioning reference signal based at least in part on a second reference point different from said reference point;
means for scrambling a first sequence with said scrambling sequence to generate a positioning reference sequence;
and means for generating the positioning reference signal based at least in part on the positioning reference sequence.
[C13]
means for receiving a second indication of a second positioning reference signal configuration for a second transmit/receive point;
a second reference point within the carrier bandwidth of the component carrier and a second positioning reference signal relative to the second reference point based at least in part on the second positioning reference signal configuration; means for determining a frequency domain allocation of
The apparatus of C1, further comprising means for transmitting or measuring a second positioning reference signal within said second frequency domain allocation.
[C14]
The apparatus of C1, further comprising means for receiving a message instructing the UE to transmit the positioning reference signal.
[C15]
The message is a radio resource control (RRC) message, a higher layer protocol message, a positioning message, a long term evolution (LTE) positioning protocol message, a new radio (NR) positioning message, a downlink control information (DCI), or a medium access The apparatus of C14, which is a control (MAC) control element (CE).
[C16]
The apparatus of C1, wherein the UE maintains transmission of the positioning reference signal throughout the duration of a connection with the transmit/receive point based at least in part on received RRC signaling or a received configuration. .
[C17]
The apparatus of C16, wherein transmission of positioning reference signals occurs periodically throughout the duration of said connection.
[C18]
of the positioning reference signal beginning after the UE receives a first medium access control (MAC) control element (CE) until receiving a second MAC CE that deactivates transmission of the positioning reference signal. The apparatus of C1 that maintains transmission.
[C19]
The apparatus of C1, wherein a UE transmits the positioning reference signal once per downlink control information (DCI) trigger.
[C20]
The apparatus of C19, wherein the DCI trigger transmits the positioning reference signal on positioning reference signal occasions or on a defined number of positioning reference signal occasions with a defined periodicity.
[C21]
The apparatus of C1, further comprising means for receiving a gap indicator indicating one or more symbols before or after a positioning reference signal opportunity.
[C22]
further comprising means for receiving signaling configuring said UE with at least one bandwidth portion and an active bandwidth portion from said at least one bandwidth portion, wherein said frequency domain allocation comprises said active bandwidth portion; The apparatus of C1 that crosses the bandwidth of .
[C23]
The apparatus of C22, further comprising means for determining that an intersection of the frequency domain allocation and the bandwidth of the active bandwidth portion satisfies a threshold.
[C24]
The apparatus of C23, wherein the UE is configured with the threshold.
[C25]
The apparatus of C23, wherein the threshold is based on the UE's capabilities, a type of positioning method, a configured positioning reference signal pattern, a frequency hopping pattern, or some combination thereof.
[C26]
The apparatus of C22, wherein the bandwidth of the frequency domain allocation exceeds the bandwidth of the active bandwidth portion.
[C27]
The apparatus of C26, further comprising means for receiving a measurement indicator that configures the UE to measure the positioning reference signal on the bandwidth of the frequency domain allocation exceeding the bandwidth of the active bandwidth portion. .
[C28]
The apparatus of C27, wherein the measurement indicator is based at least in part on a type of positioning method.
[C29]
further means for transmitting a capability indicator indicating whether the UE is capable of measuring the positioning reference signal over the bandwidth of the frequency domain allocation exceeding the bandwidth of the active bandwidth portion; The apparatus of C27, wherein said measurement indicator is based at least in part on said performance indicator.
[C30]
The apparatus of C29, wherein the capability indicator indicates a gap before or after a positioning reference signal opportunity.
[C31]
The apparatus of C22, wherein the active bandwidth portion does not change during at least one positioning reference signal opportunity or at least one positioning reference signal opportunity group.
[C32]
The apparatus of C22, wherein the active bandwidth portion does not change during positioning reference signal occasions or positioning reference signal opportunity groups within a defined time window.
[C33]
The apparatus of C22, wherein the active bandwidth portion does not change during positioning reference signal opportunity groups or positioning reference signal opportunity groups for measuring positioning reference signals at a plurality of transmit/receive points.
[C34]
The frequency domain allocation of the positioning reference signals changes when the active bandwidth portion changes to a second active bandwidth portion during at least one positioning reference signal opportunity or at least one positioning reference signal opportunity group. The device of C22 that does not.
[C35]
further comprising means for receiving a port indication indicating that the same port is applied across the frequency domain allocation or that a different port is applied to each component carrier of a plurality of component carriers. and wherein said frequency domain allocation of said positioning reference signals spans said plurality of component carriers.
[C36]
The apparatus of C1, further comprising means for determining, based at least in part on the frequency domain allocation of the positioning reference signal spanning multiple component carriers, that the same port is applied across the frequency domain allocation. .
[C37]
Clause C1, further comprising: based at least in part on the frequency domain allocation of the positioning reference signal spanning multiple adjacent component carriers, determining that the same port is applied across the frequency domain allocation. equipment.
[C38]
Further comprising means for determining, based at least in part on the frequency domain allocation of the positioning reference signal spanning multiple component carriers within the same frequency band, that the same port is applied across the frequency domain allocation. The device of C1.
[C39]
based at least in part on the frequency domain allocation of the positioning reference signal across multiple component carriers and a frequency domain separation for each pair of the multiple component carriers meeting a threshold across the frequency domain allocation. The apparatus of C1, further comprising means for determining that same ports are applied.
[C40]
means for transmitting a capability indicator indicating defined bandwidth support for the positioning reference signal over multiple component carriers;
and means for receiving a gap indicator that constitutes a time domain gap before or after the positioning reference signal opportunity.
[C41]
further comprising means for receiving a port indication indicating that the same port is applied to each active bandwidth portion of the plurality of active bandwidth portions of the component carrier, wherein the frequency domain allocation is The apparatus of C1 spanning an active bandwidth portion.
[C42]
further comprising means for receiving a port indication indicating that a different port is applied to each active bandwidth portion of the plurality of active bandwidth portions of the component carrier, wherein the frequency domain allocation is The apparatus of C1 spanning an active bandwidth portion.
[C43]
further comprising means for determining that the same port is applied to each active bandwidth portion of a plurality of active bandwidth portions of the component carrier, wherein the frequency domain allocation is applied to the plurality of active bandwidth portions; C1.
[C44]
further comprising means for determining that the same port is applied to each active bandwidth portion of a plurality of adjacent active bandwidth portions of the component carrier, wherein the frequency domain allocation comprises: The apparatus of C1 covering parts.
[C45]
means for transmitting a capability indicator indicating whether the UE supports measuring the positioning reference signal over multiple active bandwidth portions;
means for receiving a measurement indicator that configures the UE to measure the positioning reference signal over at least one of the plurality of active bandwidth portions based at least in part on the capability indicator. The device of C1.
[C46]
means for transmitting a capability indicator indicating measurement bandwidths supported by the UE to measure the positioning reference signal over a plurality of active bandwidth portions;
means for receiving a measurement indicator that configures the UE to measure the positioning reference signal over at least one of the plurality of active bandwidth portions based at least in part on the capability indicator. The device of C1.
[C47]
In an apparatus for wireless communication by a network entity,
means for transmitting an indication of a positioning reference signal configuration to a transmit/receive point;
means for determining, based at least in part on said positioning reference signal configuration, reference points within a carrier bandwidth of a component carrier and frequency domain allocations for positioning reference signals with respect to said reference points;
means for monitoring transmissions of said positioning reference signals from user equipment (UE) within said frequency domain allocation.
[C48]
The means for determining the frequency domain allocation comprises:
The apparatus of C47 comprising means for determining a start of the frequency domain allocation for the reference point and a number of bandwidths or resource blocks of the frequency domain allocation based at least in part on the positioning reference signal configuration.
[C49]
The apparatus of C47, further comprising means for determining a positioning estimate for the UE based at least in part on receiving the positioning reference signal from the UE within the frequency domain allocation.
[C50]
The apparatus of C47, further comprising means for transmitting positioning information indicative of a first location of said transmission/reception point and at least a second location of at least a second transmission/reception point.
[C51]
Further comprising means for transmitting a positioning reference signal measurement report indicative of a first measurement and a first location of said transmit/receive point and at least a second measurement and at least a second location of at least a second transmit/receive point. The device according to C47.
[C52]
The apparatus of C47, wherein the reference point is different than a starting resource block of the carrier bandwidth.
[C53]
means for determining a scrambling sequence for the positioning reference signal based at least in part on the reference points;
means for decoding a first sequence from the frequency domain allocation;
means for descrambling the first sequence with the scrambling sequence to generate a candidate positioning reference sequence;
and means for determining that the candidate positioning reference sequence corresponds to a positioning reference sequence assigned to the UE.
[C54]
within the frequency domain allocation, using a subcarrier spacing of the carrier bandwidth that is different than a subcarrier spacing of an active bandwidth portion within the carrier bandwidth configured for the UE, the positioning criteria The apparatus of C52, further comprising means for measuring the signal.
[C55]
The apparatus of C47, wherein the reference point is a starting resource block of the carrier bandwidth.
[C56]
Within the frequency domain allocation, the positioning using a subcarrier spacing of the carrier bandwidth that is the same as a subcarrier spacing of an active bandwidth portion within the carrier bandwidth configured for the UE. The apparatus of C55, further comprising means for measuring a reference signal.
[C57]
The apparatus of C47, further comprising means for transmitting a message instructing the UE to transmit the positioning reference signal.
[C58]
The message is a radio resource control (RRC) message, a higher layer protocol message, a positioning message, a long term evolution (LTE) positioning protocol message, a new radio (NR) positioning message, a downlink control information (DCI), or a medium access The apparatus of C57, which is a control (MAC) control element (CE).
[C59]
The apparatus of C47, further comprising means for transmitting a gap indicator indicating one or more symbols before or after the positioning reference signal opportunity.
[C60]
further comprising means for transmitting signaling configuring said UE with at least one bandwidth portion and an active bandwidth portion within said at least one bandwidth portion, wherein said frequency domain allocation comprises said active bandwidth portion; The apparatus of C47 crossing the bandwidth of .
[C61]
The apparatus of C60, further comprising means for determining that an intersection of the frequency domain allocation and the bandwidth of the active bandwidth portion meets a threshold.
[C62]
The apparatus of C61, further comprising means for configuring said UE with said threshold.
[C63]
The apparatus of C61, wherein the threshold is based on the UE's capabilities, a type of positioning method, a configured positioning reference signal pattern, a frequency hopping pattern, or some combination thereof.
[C64]
The apparatus of C60, wherein the bandwidth of the frequency domain allocation exceeds the bandwidth of the active bandwidth portion.
[C65]
The apparatus of C64, further comprising means for transmitting a measurement indicator that configures the UE to measure the positioning reference signal over the bandwidth of the frequency domain allocation exceeding the bandwidth of the active bandwidth portion. .
[C66]
The apparatus of C65, wherein the measurement indicator is based at least in part on a type of positioning method.
[C67]
further means for receiving a capability indicator indicating whether the UE is capable of measuring the positioning reference signal over the bandwidth of the frequency domain allocation exceeding the bandwidth of the active bandwidth portion. The apparatus of C65, wherein said measurement indicator is based at least in part on said performance indicator.
[C68]
The apparatus of C67, wherein the capability indicator indicates a gap before or after a positioning reference signal opportunity.
[C69]
The apparatus of C60, wherein the active bandwidth portion does not change during at least one positioning reference signal opportunity or at least one positioning reference signal opportunity group.
[C70]
The apparatus of C60, wherein the active bandwidth portion does not change during positioning reference signal occasions or positioning reference signal opportunity groups within a defined time window.
[C71]
The apparatus of C60, wherein the active bandwidth portion does not change during positioning reference signal opportunity groups or positioning reference signal opportunity groups for measuring positioning reference signals at a plurality of transmit/receive points.
[C72]
The frequency domain allocation of the positioning reference signals changes when the active bandwidth portion changes to a second active bandwidth portion during at least one positioning reference signal opportunity or at least one positioning reference signal opportunity group. The device according to C60 which does not.
[C73]
further comprising means for transmitting a port indication that the same port is applied across the frequency domain allocation or that a different port is applied to each component carrier of a plurality of component carriers. and wherein said frequency domain allocation of said positioning reference signals spans said plurality of component carriers.
[C74]
C47 further comprising means for transmitting the positioning reference signal based at least in part on the frequency domain allocation of the positioning reference signal across multiple component carriers and applying the same port across the frequency domain allocation. Apparatus as described.
[C75]
further comprising means for transmitting the positioning reference signal based at least in part on the frequency domain allocation of the positioning reference signal across multiple adjacent component carriers, applying the same ports across the frequency domain allocation. The device according to C47.
[C76]
Means for transmitting the positioning reference signal based at least in part on the frequency domain allocation of the positioning reference signal spanning multiple component carriers within the same frequency band, applying the same ports across the frequency domain allocation. The apparatus of C47, further comprising:
[C77]
based at least in part on the frequency domain allocation of the positioning reference signal across multiple component carriers and a frequency domain separation for each pair of the multiple component carriers meeting a threshold across the frequency domain allocation. The apparatus of C47, further comprising means for applying the same port to transmit the positioning reference signal.
[C78]
means for receiving a capability indicator indicating defined bandwidth support for the positioning reference signal spanning multiple component carriers;
and means for transmitting a gap indicator that constitutes a time domain gap before or after the positioning reference signal opportunity.
[C79]
further comprising means for transmitting a port indication indicating that the same port is applied to each active bandwidth portion of the plurality of active bandwidth portions of the component carrier, wherein the frequency domain allocation is The apparatus of C47 spanning the active bandwidth portion.
[C80]
further comprising means for transmitting a port indication indicating that a different port is applied to each active bandwidth portion of the plurality of active bandwidth portions of the component carrier, wherein the frequency domain allocation is The apparatus of C47 spanning the active bandwidth portion.
[C81]
means for transmitting the positioning reference signal applying the same port for each active bandwidth portion of the plurality of active bandwidth portions of the component carrier, wherein the frequency domain allocation is based on the plurality of active bands; A device according to C47 which spans a width portion.
[C82]
means for transmitting the positioning reference signal applying the same port for each active bandwidth portion of a plurality of adjacent active bandwidth portions of the component carrier, wherein the frequency domain allocation is The apparatus of C47 spanning the active bandwidth portion.
[C83]
means for receiving a capability indicator indicating whether the UE supports measuring the positioning reference signal over multiple active bandwidth portions;
and transmitting a measurement indicator that configures the UE to measure the positioning reference signal over at least one of the plurality of active bandwidth portions based at least in part on the capability indicator. The device according to C47.
[C84]
means for receiving a capability indicator indicating measurement bandwidths supported by the UE to measure the positioning reference signal over a plurality of active bandwidth portions;
and transmitting a measurement indicator that configures the UE to measure the positioning reference signal over at least one of the plurality of active bandwidth portions based at least in part on the capability indicator. The device according to C47.
[C85]
In an apparatus for wireless communication by a user equipment (UE), comprising:
a processor;
a memory coupled to the processor;
instructions stored in the memory;
The instructions instruct the device to:
to receive an indication of a positioning reference signal configuration for a transmit/receive point;
having reference points within a carrier bandwidth of a component carrier and frequency domain allocations for positioning reference signals for the reference points determined based at least in part on the positioning reference signal configuration;
An apparatus executable by the processor to cause the positioning reference signal to be transmitted or the positioning reference signal to be measured based at least in part on the frequency domain allocation.
[C86]
In an apparatus for wireless communication by a network entity,
a processor;
a memory coupled to the processor;
instructions stored in the memory;
The instructions instruct the device to:
to send an indication of the positioning reference signal configuration to the transmit/receive point;
having reference points within a carrier bandwidth of a component carrier and frequency domain allocations for positioning reference signals for the reference points determined based at least in part on the positioning reference signal configuration;
An apparatus executable by said processor to cause it to monitor transmission of said positioning reference signal from a user equipment (UE) within said frequency domain allocation.
[C87]
A method for wireless communication by a user equipment (UE), comprising:
receiving an indication of a positioning reference signal configuration for a transmit/receive point;
determining reference points within a carrier bandwidth of a component carrier and frequency domain allocations for positioning reference signals with respect to the reference points based at least in part on the positioning reference signal configuration;
transmitting the positioning reference signal or measuring the positioning reference signal based at least in part on the frequency domain allocation.
[C88]
Determining the frequency domain allocation comprises:
The method of C87 comprising determining a start of the frequency domain allocation for the reference point and a number of bandwidths or resource blocks of the frequency domain allocation based at least in part on the positioning reference signal configuration.
[C89]
A method for wireless communication by a network entity comprising:
transmitting an indication of a positioning reference signal configuration to a transmit/receive point;
determining reference points within a carrier bandwidth of a component carrier and frequency domain allocations for positioning reference signals with respect to the reference points based at least in part on the positioning reference signal configuration;
monitoring transmission of said positioning reference signal from a user equipment (UE) within said frequency domain allocation.
[C90]
Determining the frequency domain allocation comprises:
C89. The method of C89 comprising determining a start of the frequency domain allocation for the reference point and a number of bandwidths or resource blocks of the frequency domain allocation based at least in part on the positioning reference signal configuration.

Claims (15)

In an apparatus for wireless communication by a user equipment (UE), comprising:
means for receiving an indication of a positioning reference signal (PRS) configuration for a transmit/receive point, said PRS configuration indicating the number or bandwidth of reference points and frequency domain allocated resource blocks within a carrier bandwidth of a component carrier; ,
means for determining a start of the frequency domain allocation offset by a gap in frequency relative to the reference point based at least in part on the PRS configuration;
means for receiving a measurement indicator that configures the UE to measure a PRS on the number of resource blocks of the frequency domain allocation or the bandwidth;
means for measuring the PRS based at least in part on the frequency domain allocation and the measurement indicator . further comprising means for receiving signaling configuring said UE with at least one bandwidth portion and an active bandwidth portion from said at least one bandwidth portion, wherein said frequency domain allocation comprises said active bandwidth portion; 2. The apparatus of claim 1, crossing the bandwidth of . 3. The apparatus of claim 2 , further comprising means for determining that an intersection of said frequency domain allocation and said bandwidth of said active bandwidth portion satisfies a threshold. 4. The apparatus of claim 3 , wherein the UE is configured with said threshold. 4. The apparatus of claim 3 , wherein the threshold is based on the UE's capabilities, or a type of positioning method, or a configured PRS pattern, or a frequency hopping pattern, or some combination thereof. 3. The apparatus of claim 2 , wherein the bandwidth of said frequency domain allocation exceeds said bandwidth of said active bandwidth portion. 7. The apparatus of claim 6 , wherein the measurement indicator is based at least in part on the type of positioning method. further comprising means for transmitting a capability indicator indicating whether the UE is capable of measuring the PRS over the bandwidth of the frequency domain allocation exceeding the bandwidth of the active bandwidth portion. 7. The apparatus of claim 6 , wherein said measurement indicator is based at least in part on said performance indicator. 9. The apparatus of claim 8 , wherein the capability indicator indicates a gap before or after a PRS opportunity. 3. The apparatus of claim 2 , wherein the active bandwidth portion does not change during at least one PRS opportunity or at least one PRS opportunity group. 3. The apparatus of claim 2 , wherein the active bandwidth portion does not change between multiple PRS opportunities or multiple PRS opportunity groups within a defined time window. The active bandwidth portion does not vary between multiple PRS opportunities or multiple PRS opportunity groups for measuring multiple positioning reference signals at multiple transmit/receive points, and/or at least one PRS opportunity or 3. The apparatus of claim 2 , wherein during at least one PRS opportunity group, the frequency domain allocation of the PRS does not change when the active bandwidth portion changes to a second active bandwidth portion. In an apparatus for wireless communication by a network entity,
means for transmitting an indication of a positioning reference signal (PRS) configuration to a transmit/receive point, said PRS configuration indicating the number or bandwidth of reference points and frequency domain allocated resource blocks within a carrier bandwidth of a component carrier; ,
means for determining a start of the frequency domain allocation offset by a gap in frequency relative to the reference point based at least in part on the PRS configuration;
means for transmitting a measurement indicator that configures a user equipment (UE) to measure a PRS over the number of resource blocks or the bandwidth of the frequency domain allocation;
means for transmitting the PRS to the UE associated with the frequency domain allocation and the measurement indicator . A method for wireless communication by a user equipment (UE), comprising:
receiving an indication of a PRS configuration for a transmit/receive point, the PRS configuration indicating a reference point within a carrier bandwidth of a component carrier and a number or bandwidth of resource blocks for frequency domain allocation;
determining a start of the frequency domain allocation offset by a gap in frequency relative to the reference point based at least in part on the PRS configuration;
measuring the PRS based at least in part on the frequency domain allocation and measurement indicator . A method for wireless communication by a network entity comprising:
transmitting an indication of a positioning reference signal (PRS) configuration to a transmit/receive point, said PRS configuration indicating the number or bandwidth of reference points and frequency domain allocation resource blocks within a carrier bandwidth of a component carrier; ,
determining a start of the frequency domain allocation offset by a gap in frequency relative to the reference point based at least in part on the PRS configuration;
transmitting the PRS to UEs associated with the frequency domain allocation and measurement indicators .