Patent Description:
<CIT> discloses: Control information may be identified and provided to a user equipment (UE) that is formatted into a codeword that is transmitted in a first symbol of a downlink transmission to the UE. The control information may include an allocation of downlink or uplink resources for the UE and data processing parameters. The control information may be partitioned into first control information transmitted in a first codeword and second control information that may be formatted into a second codeword. The second control information may be determined based at least in part on the data acknowledgment from the UE. Such partitioned control information may allow a base station to perform some processing related to transmissions for a transmission time interval (TTI) prior to the start of the TTI, and allow the base station to perform some processing for the TTI after the start of the TTI.

<NPL>, summarizes discussion aspects of NR RRM and LLM measurements.

The third backhaul links <NUM> may be wired or wireless.

The base stations <NUM> / UEs <NUM> may use spectrum up to YMHz (e.g., <NUM>, <NUM>, <NUM>, <NUM>, <NUM>, <NUM>, etc. MHz) bandwidth per carrier allocated in a carrier aggregation of up to a total of Yx MHz (x component carriers) used for transmission in each direction.

Referring again to <FIG>, in certain aspects, the base station <NUM> may include a span based measurement component <NUM> configured to generate a timeline based on a last symbol of a span. In certain aspects, the UE <NUM> may include a span based measurement component <NUM> configured to transmit a processing time parameter to the base station.

<FIG> is a diagram illustrating a CORESET <NUM>. A CORESET may be a set of frequency domain resources on which a PDCCH may be scheduled, and may have a symbol width defining the width of the CORESET. The CORESET may identify sets of contiguous RBs (e.g., sets of six contiguous RBs) in a given symbol which may receive the PDCCH and gaps which may not receive the PDCCH in the given symbol. A UE may include multiple CORESETS.

<FIG> is a diagram illustrating a search space set. A search space set may identify the time domain resources on which an associated CORESET is scheduled. Accordingly, together, a CORESET and a search space set may identify the resources scheduled for a PDCCH. In some aspects, a UE may be configured with three CORESETs and <NUM> search space sets per bandwidth part.

Each instance of a CORESET being assigned to a time domain resource may be referred to as a search space set occasion. For example, the search space set illustrated in <FIG> may assign the CORESET <NUM> illustrated in <FIG> to time domain resources at a first search space set occasion <NUM> and a second search space set occasion <NUM> in Slot <NUM>, and to a third search space set occasion <NUM> and a fourth search space set occasion <NUM> in Slot <NUM>.

<FIG> is a diagram <NUM> illustrating PDCCH scheduling options for a UE. A UE may be configured with one or more span. For example, <FIG> illustrates a UE having a first span <NUM>, as second span <NUM>, and a third span <NUM>. According to the invention, a span is a set of resources on which the UE may receive a PDCCH from a base station. The span or spans of a UE may be part of the UE feature list (e.g., may be a capability of the UE), and the UE may report it to the base station.

A UE may have two values associated with spans: a minimum gap between two spans, and a duration of a span, measured in symbols. The UE may have multiple possible pairs of the two associated values, and may select some or all of the possible pairs to report to the base station. For example, where a pair may be written as (minimum gap between two spans, duration of a span), a UE may be able to report a first option of (<NUM>, <NUM>), (<NUM>, <NUM>), and (<NUM>, <NUM>), a second option of (<NUM>, <NUM>) and (<NUM>, <NUM>), or a third option of just (<NUM>, <NUM>) to the base station.

For example, in <FIG>, the UE may report to a base station that the UE is capable of receiving a PDCCH in the first span <NUM>, the second span <NUM>, or the third span <NUM>. The base station may then schedule the UE to receive the PDCCH within one of the reported spans. The UE may have three PDCCH options set by configured search space sets and CORESETs: CORESET 1OS, CORESET 2OS, and CORESET 3OS. For example, the base station may schedule the UE to receive the PDCCH during the second span <NUM> and the third span <NUM> based on CORESET 1OS, may schedule the UE to receive the PDCCH during the first span <NUM> and the third span <NUM> based on CORESET 2OS, or may schedule the UE to receive the PDCCH during the second span <NUM> based on CORESET 3OS.

<FIG> is a diagram <NUM> illustrating scheduling or triggering a scheduled channel based on a PDCCH. A UE may be scheduled to receive a PDCCH <NUM>. The UE may receive information related to the scheduling of a later-scheduled channel (referred to herein as a 'scheduled channel') in the PDCCH <NUM>. For example, as shown in <FIG>, during the PDCCH <NUM>, the UE may receive downlink control information scheduling an uplink channel later in the slot.

In order to transmit or receive on the scheduled channel, the UE processes the PDCCH <NUM> to retrieve the information related to the scheduling of the scheduled channel. The time to process the PDCCH <NUM> may be referred to as a processing time parameter, and may be represented as a number of symbols required to provide the processing time. The processing time parameter may depend on the processing capabilities of the UE and system configurations such as the subcarrier spacing, etc..

The processing time parameter may be the minimum number of symbols needed for the UE to process the PDCCH (or to process the portion of the PDCCH relevant to the scheduled channel. The number of symbols in the processing time parameter may be dependent on the content of the PDCCH <NUM> or what the PDCCH <NUM> is scheduling as the scheduled channel. For example, where the PDCCH <NUM> provides semi-persistent scheduling (SPS) PDSCH release and the UE is scheduled to provide a corresponding ACK/NACK, the processing time parameter may include a first number of symbols N. Where the PDCCH <NUM> provides scheduling DCI scheduling the UE to transmit a PUSCH, the processing time parameter may include a second number of symbols N<NUM>. Where the PDCCH <NUM> provides scheduling DCI scheduling the UE to transmit a PUSCH for aperiodic CSI reporting, the processing time parameter may include a third number of symbols Z. Where PDCCH <NUM> provides timing control information (TCI) such as a beam switching timing threshold (e.g., timeDurationForQCL or beamSwitchTiming) and the UE is scheduled to receive a PDSCH on the beam identified in the PUCCH, the processing time parameter may include another number of symbols.

A timeline <NUM> is a number of symbols between the last symbol of the PDCCH <NUM> and the first symbol <NUM> of the scheduled channel. A UE may provide a base station with one or more processing time parameter. When scheduling the PDCCH <NUM> and a scheduled channel, the base station utilizes the processing time parameter and schedules the scheduled channel with a timeline <NUM> greater than the processing time parameter, to provide the UE with time to process the PDCCH <NUM> prior to the first symbol <NUM> of the scheduled channel.

<FIG> is a diagram <NUM> illustrating scheduling or triggering a scheduled channel using PMO based timeline measurement. A base station has scheduled a UE to receive a PDCCH in a span <NUM> of Slot <NUM>. As a result, the UE monitors for the PDCCH during a PDCCH monitoring occasion (PMO). The PMO corresponds to the symbols identified by the CORESET and search space set occasion where the PDCCH is scheduled to be received. For example, the span <NUM> may have a symbol width <NUM> of three symbols and a minimum space between spans <NUM> of seven symbols. Where the CORESET in the span <NUM> is one symbol wide and at the first symbol of the span <NUM>, the UE may monitor for the PDCCH during the PMO <NUM>. Where the CORESET in the span <NUM> is two symbols wide and starts at the first symbol of the span <NUM>, the UE may monitor for the PDCCH during the PMO <NUM>. Where the CORESET in the span <NUM> is three symbols wide, the UE may monitor for the PDCCH during the PMO <NUM>.

When the UE receives the PDCCH, the PDCCH may include information for a scheduled channel. The UE may have a first processing time parameter associated with a PDCCH received in the first PMO <NUM> and a scheduled channel, may have a second processing time parameter associated with a PDCCH received in the second PMO <NUM> and a scheduled channel, and may have a third processing time parameter associated with a PDCCH received in the third PMO and a scheduled channel. The UE may have different timelines corresponding to different PMOs. The timeline for the scheduled channel for a PMO, e.g., the number of symbols between the last symbol of the PMO receiving the PDCCH and the first symbol <NUM> of the scheduled channel may be greater than the processing time parameter for that PMO. When scheduling the scheduled channel, the base station may determine an initial symbol for the scheduled channel which provides for the timeline for each PMO to be equal to or greater than the processing time parameter for that PMO.

For example, as shown in <FIG>, the UE may receive a PDCCH in a span <NUM> which schedules an uplink channel (PUCCH or PUSCH) having a first symbol <NUM>. Where the PDCCH has a one-symbol width and is received on the PMO <NUM>, the UE may have a processing time parameter of nine symbols for the PDCCH. Where the PDCCH has a two-symbol width and is received on the PMO <NUM>, the UE may have a processing time parameter of eight symbols. Where the PDCCH has a three-symbol width and is received on the PMO <NUM>, the UE may have a processing time parameter of seven symbols. The base station may schedule the PDCCH with a first symbol <NUM> at the eleventh symbol of the slot, providing a first timeline <NUM> of nine symbols for the PDCCH of the first PMO <NUM>, a second timeline <NUM> of eight symbols for the PDCCH of the second PMO <NUM>, and a third timeline <NUM> of seven symbols for the PDCCH of the third PMO <NUM>.

In some aspects, a base station may schedule a scheduled channel with a timeline based on the last symbol of a short PMO such as the first PMO <NUM>, such that the scheduled channel would not meet the processing time parameter of a longer PMO such as the third PMO <NUM>. The UE may process PDCCH received on the first PMO <NUM> and on the third PMO <NUM> separately. In some aspects, the UE may process the PDCCH as it is received, as the UE may need to begin processing the PDCCH prior to receiving the last symbols of the longer PMO to meet the timeline parameter of the shorter PMO.

<FIG> is a diagram <NUM> illustrating scheduling or triggering a scheduled channel using span based timeline measurement. A base station has scheduled a UE to receive a PDCCH in a span <NUM> in Slot <NUM>. As a result, the UE monitors for the PDCCH during a PMO in the span <NUM>, on symbols identified by the CORESET and search space set occasion. The symbol width <NUM> of the span <NUM> may be three symbols. Where the CORESET in the span <NUM> is one symbol wide and at the first symbol of the span <NUM>, the UE may monitor for the PDCCH during the PMO <NUM>. Where the CORESET in the span <NUM> is three symbols wide, the UE may monitor for the PDCCH during the PMO <NUM>.

When the UE receives the PDCCH, the PDCCH may include information for a scheduled channel. The UE may have a processing time parameter associated with the PDCCH and the scheduled channel. The base station may schedule the scheduled channel with a timeline <NUM> based on the last symbol of the span <NUM>. The timeline <NUM> may be equal to or greater than the processing time parameter of the UE associated with the PDCCH, and may be measured from the last symbol of the span <NUM>. Accordingly, the timeline <NUM> may provide time for the UE to process the PUCCH prior to transmitting or receiving on the first symbol <NUM> of the scheduled channel, regardless of whether the PUCCH is received in the first PMO <NUM> or the second PMO <NUM>.

For example, the processing time parameter for the UE may be five symbols, the span symbol width <NUM> may be three symbols, the first PMO <NUM> may be one symbol long, and the second PMO <NUM> may be three symbols long. The base station may schedule the scheduled channel such that the first symbol <NUM> of the scheduled channel is at the ninth symbol of the slot or later-at least five symbols after the last symbol of the span <NUM>. If the PDCCH is received on the first PMO <NUM>, the UE has at least seven symbols to process the PDCCH, which is greater than the processing time parameter. If the PDCCH is received on the second PMO <NUM>, the UE has at least five symbols to process the PDCCH, which is equal to or greater than the processing time parameter.

In some aspects, where the PDCCH was received on the PMO <NUM>, and where the PMO <NUM> is two symbols shorter than the symbol width <NUM> of the span, the UE may ignore the last two symbols <NUM> before the first symbol <NUM> of the scheduled channel and the base station may not transmit on the last two symbols <NUM>.

In some aspects, the UE may receive PDCCH scheduling a scheduled channel on multiple search space set occasions (e.g., on multiple PMOs) in a single span. The UE may process the PDCCH received on each search space set occasion together. As the timeline <NUM> provides for the processing time parameter regardless of the PMO, the UE may receive the PDCCH on each search space set occasion with enough time to process the PDCCH prior to the first symbol <NUM> of the scheduled channel.

<FIG> is a communication flow diagram <NUM> illustrating scheduling or triggering a scheduled channel using span based timeline measurement. A UE <NUM> may transmit a processing time parameter <NUM> to a base station <NUM>, and the base station <NUM> may receive the processing time parameter <NUM>. The processing time parameter may identify a number of symbols for the UE to process a PDCCH. In some aspects, the processing time parameter <NUM> includes multiple processing time parameters associated with different types of scheduled channels and different configurations (e.g., SCS).

The UE <NUM> may transmit a span configuration <NUM> to the base station <NUM>, and the base station <NUM> may receive the span configuration <NUM>. The span configuration <NUM> may include the minimum gap between two spans and the duration of the span. The span configuration <NUM> may identify the symbols where the span will be located. In some aspects, the span configuration <NUM> may include multiple possible pairs of associated values of the minimum gap between two spans and the duration of the span.

The base station <NUM> may determine the resources that will be used for the CORESET where the PDCCH may be transmitted and may transmit a CORESET selection <NUM> to the UE <NUM>, and the UE <NUM> may receive the CORESET selection <NUM>. The CORESET selection <NUM> may include one or more CORESET and one or more search space set to define the resources on which the PDCCH will be transmitted. The base station <NUM> may configure the CORESETs to be on a search space set occasion within a corresponding span of the UE.

As illustrated at <NUM>, the base station <NUM> may determine to transmit a PDCCH that schedules or triggers a scheduled channel. For example, the base station <NUM> may determine to transmit a PDCCH with an uplink grant that schedules an uplink channel such as a PUCCH or a PUSCH. The base station <NUM> may determine to transmit the PDCCH that schedules or triggers the scheduled channel on the resources configured by the CORESET selection <NUM>, during the corresponding span of the UE <NUM>.

As illustrated at <NUM>, the base station <NUM> may determine a timeline for the scheduled channel based on the span in which the PDCCH scheduling the scheduled channel will be transmitted. The base station <NUM> may determine the timeline to be the number of symbols between the last symbol of the corresponding span of the UE <NUM> and the first symbol of the scheduled channel, based on the processing time parameter <NUM>. The base station <NUM> may transmit the PDCCH <NUM>, including the DCI scheduling the scheduled channel with a timeline based on last symbol of the span, to the UE <NUM> during the span and the UE <NUM> may receive the PDCCH <NUM> during a PMO in the span. In some aspects, the base station <NUM> may transmit PDCCH <NUM> to the UE <NUM> on multiple search space set occasions in a single span.

As illustrated at <NUM>, the UE <NUM> may process the PDCCH. For example, the UE <NUM> may process the PDCCH to determine that it includes DCI scheduling the scheduled channel and/or to determine when the DCI indicates the scheduled channel is scheduled. In some aspects, the UE <NUM> may process PDCCH received on multiple search space set occasions in a single span together (e.g., may process the PDCCH at the same time, may process the PDCCH once all PDCCH has been received, or may process the PDCCH after the end of the span).

As illustrated at <NUM>, the UE <NUM> and the base station <NUM> may transmit/receive the scheduled channel <NUM> on the scheduled resources. For example, where the scheduled channel <NUM> is an uplink channel such as a PUCCH or a PUSCH, the UE <NUM> may transmit the scheduled channel <NUM> at the schedule resources and the base station <NUM> may receive the scheduled channel <NUM> at the scheduled resources. Where the scheduled channel <NUM> is a downlink channel such as a PDSCH channel, the base station <NUM> may transmit the scheduled channel <NUM> at the scheduled resources and the UE <NUM> may receive the scheduled channel <NUM> at the scheduled resources.

<FIG> is a communication flow diagram <NUM> illustrating a UE <NUM> communicating timeline measurement capabilities to a base station <NUM>. The UE <NUM> may transmit a capability message <NUM> to the base station <NUM>, and the base station <NUM> may receive the capability message <NUM>. The capability message may indicate the UE's support for PMO based timeline measurement (e.g., measuring a timeline based on the symbols of the PDCCH, as discussed in connection with <FIG>) and span based timeline measurement (e.g., measuring a timeline based on the span as discussed in connection with <FIG>). The capability message <NUM> may indicate that the UE <NUM> only supports PMO based timeline measurement, only supports span based timeline measurement, or supports both PMO and span based timeline measurement.

In some aspects, such as where the UE <NUM> supports both PMO and span based timeline measurement and indicates as much in the capability message <NUM>, the base station <NUM> may determine whether to use PMO or span based timeline measurement for scheduling with the UE <NUM>, as illustrated at <NUM>. The base station <NUM> may transmit a selection <NUM> to the UE <NUM> identifying which timeline measurement mode was selected, and the UE <NUM> may receive the selection <NUM> to determine which timeline measurement mode to use. The selection <NUM> may be in a media access control control element (MAC-CE), an RRC message, or PDCCH DCI.

As illustrated at <NUM>, the base station <NUM> may determine a timeline for a scheduled channel based on the capability message <NUM>. The base station <NUM> may have determined to transmit a PDCCH scheduling the scheduled channel in a PMO in a span of the UE <NUM>. If the capability message indicated that the UE <NUM> only supported PMO based timeline measurement, the base station <NUM> may select resources for the scheduled channel based on a processing time parameter and the last symbol of the PDCCH, to provide for a timeline between the last symbol of the PDCCH and the first symbol of the scheduled channel to be greater than the processing time parameter. If the capability message indicated that the UE <NUM> only supported span based timeline measurement, the base station <NUM> may select resources for the scheduled channel based on a processing time parameter and the last symbol of the span, to provide for a timeline between the last symbol of the span and the first symbol of the scheduled channel to be greater than the processing time parameter. If the capability message indicated that the UE <NUM> supported both PMO and span based timeline measurement, the base station <NUM> may generate the timeline based on the selection made as illustrated at <NUM>.

The base station <NUM> may transmit the PDCCH <NUM> to the UE <NUM>, on resources selected based on PMO or span based timeline measurement as illustrated at <NUM>. The UE <NUM> may receive the PDCCH <NUM> during a PMO in a span of the UE <NUM>.

At <NUM>, the UE <NUM> and the base station <NUM> may transmit/receive the scheduled channel <NUM>, on the resources selected for the scheduled channel identified at <NUM>. For example, where the scheduled channel <NUM> is an uplink channel such as a PUCCH or a PUSCH, the UE <NUM> may transmit the scheduled channel <NUM> on the selected resources and the base station <NUM> may receive the scheduled channel <NUM> on the selected resources. Where the scheduled channel <NUM> is a downlink channel such as a PDSCH channel, the base station <NUM> may transmit the scheduled channel <NUM> on the selected resources and the UE <NUM> may receive the scheduled channel <NUM> on the selected resources.

<FIG> is a diagram <NUM> illustrating bandwidth part (BWP) dependent timeline measurement configuration. A UE may communication with one or more base station on a first BWP <NUM>, a second BWP <NUM>, or a third BWP <NUM>. The UE may include one or more timeline measurement indicator, and the timeline measurement indicator may indicate whether the UE is configured to use only PMO based timeline measurement, only span based timeline measurement, or both PMO and span based timeline measurement for transmissions on an associated BWP. For example, the UE may include a timeline measurement indicator indicating that the UE is configured to utilize span based timeline measurement for communications on the first BWP <NUM>, and may include timeline measurement indicators indicating that the UE is configured to utilize PMO based timeline measurement for communications on the second BWP <NUM> and the third BWP <NUM>.

A timeline measurement indicator may be configured in a MAC-CE, an RCC message, or PDCCH DCI.

In some aspects, all BWPs that the UE communicates on are associated with the same timeline measurement indicator. In some aspects, each BWP is associated with a distinct timeline measurement indicator.

In some aspects, the UE may utilize span based timeline measurement on an initial or default BWP and may utilize PMO based timeline measurement on other BWPs.

In some aspects, the UE may utilize span based timeline measurement on an initial or default BWP and may utilize PMO or span based timeline measurement on other BWPs. The other BWPs may all be associated with a single timeline measurement indicator to identify whether the UE should use PMO or span based timeline measurement for communications on those BWPs. Alternatively, the other BWPs may include separate timeline measurement indicators and may be configured individually.

<FIG> is a flowchart <NUM> of a method of wireless communication. The method may be performed by a UE (e.g., the UE <NUM>, <NUM>, <NUM>, which may include the memory <NUM> and which may be the entire UE or a component of the UE, such as the TX processor <NUM>, the RX processor <NUM>, and/or the controller/processor <NUM>).

At <NUM>, the UE transmits a processing time parameter to a base station, the processing time parameter corresponding to a number of symbols.

At <NUM>, the UE receives a PDCCH from a base station during a PDCCH monitoring occasion in a span. A last symbol of the PDCCH monitoring occasion may be before the last symbol of the span. The last symbol of the PDCCH monitoring occasion may be X symbols before the last symbol of the span and the data may be transmitted on an N+Xth symbol after the last symbol of the PDCCH monitoring occasion.

At <NUM>, the UE processes the PDCCH received in the PDCCH monitoring occasion to determine resources for a scheduled channel, a number of symbols between a last symbol of the span and an initial symbol of the determined resources being equal to or greater than the number of symbols of the processing time parameter. The receiving the PDCCH from the base station during the PDCCH monitoring occasion in the span may include receiving the PDCCH during a plurality of PDCCH monitoring occasions in the span, and the processing the PDCCH may include processing the PDCCH received in each PDCCH monitoring occasion of the plurality of PDCCH monitoring occasions together.

At <NUM>, the UE transmits or receives data on the scheduled channel based on the processed PDCCH. The processing time parameter may correspond to a minimum number of symbols to provide time for the UE to process the PDCCH. The processing time parameter may be a minimum processing time of the UE for processing the PDCCH, and the minimum processing time may include at least a minimum preparation time of the corresponding scheduled channel.

In some aspects, the UE may transmit a capability message to the base station, the capability message indicating support for PMO based timeline measurement, span based timeline measurement, or PMO and span based timeline measurement, wherein the determined resources are based on the capability message. The capability message may indicate support for PMO and span based timeline measurement, and the UE may receive a selection from the base station, the selection indicating PMO based timeline measurement or span based timeline measurement. The selection may indicate span based timeline measurement and the initial symbol of the determined resources may be based on the selection. The selection may be received in a media access control control element, a radio resource control message, or a PDCCH downlink control information. The capability message may indicate support for symbol and span based timeline measurement, and the initial symbol of the determined resources may be based on receiving no selection from the base station in response to the capability message.

In some aspects, the UE may receive a plurality of transmissions on a plurality of bandwidth parts (BWPs). The UE may include a timeline measurement indicator for each BWP of the plurality of BWPs, wherein each timeline measurement indicator indicates support for span based timeline measurement, PMO based timeline measurement, or both span and PMO based timeline measurement for the corresponding BWP. The PDCCH may be received on an initial BWP of the plurality of BWPs, and the timeline measurement indicator for the initial BWP may indicate support for span based timeline measurement. The timeline measurement indicators of the plurality of BWPs other than the initial BWP may indicate support for PMO based timeline measurement. The timeline measurement indicators of the plurality of BWPs other than the initial BWP may indicate support for span and PMO based timeline measurement.

<FIG> is a flowchart <NUM> of a method of wireless communication. The method may be performed by a base station (e.g., the base station <NUM>, <NUM>, <NUM>, which may include the memory <NUM> and which may be the entire base station or a component of the base station, such as the TX processor <NUM>, the RX processor <NUM>, and/or the controller/processor <NUM>).

At <NUM>, the base station receives a processing time parameter from a UE, the processing time parameter corresponding to a number of symbols.

At <NUM>, the base station determines resources for a scheduled channel based on a last symbol of a span of the UE and the processing time parameter. The number of symbols between the last symbol of the span and the initial symbol of the determined resources may be equal to or greater than the number of symbols of the processing time parameter.

At <NUM>, the base station transmits a PDCCH transmission to the UE during a PDCCH monitoring occasion in the span of the UE, the PDCCH indicating the determined resources for the scheduled channel. The processing time parameter may correspond to a minimum number of symbols to provide time for the UE to process the PDCCH. The processing time parameter may be a minimum processing time of the UE for processing the PDCCH, and the minimum processing time may include at least a minimum preparation time of the corresponding scheduled channel. A last symbol of the PDCCH monitoring occasion may be before the last symbol of the span. The last symbol of the PDCCH monitoring occasion may be X symbols before the last symbol of the span and the data may be transmitted on an N+Xth symbol after the last symbol of the PDCCH monitoring occasion.

At <NUM>, the base station receives or transmits data on the scheduled channel.

In some aspects, the base station may receive a capability message from the UE, the capability message indicating support for PMO based timeline measurement, span based timeline measurement, or PMO and span based timeline measurement, and the determined resources may be based on the capability message. The capability message may indicate support for PMO and span based timeline measurement, and the base station may transmit a selection to the UE, the selection indicating PMO based timeline measurement or span based timeline measurement. The selection may indicate span based timeline measurement and the determined resources may be based on the selection. The selection may be transmitted in a media access control control element, a radio resource control message, or a PDCCH downlink control information.

In some aspects, the base station may transmit a plurality of transmissions to the UE on a plurality of BWPs, and may receive a timeline measurement indicator for each BWP of the plurality of BWPs from the UE. Each timeline measurement indicator may indicate support for span based timeline measurement, PMO based timeline measurement, or both span and PMObased timeline measurement for the corresponding BWP. The PDCCH may be transmitted on an initial BWP of the plurality of BWPs, and the timeline measurement indicator for the initial BWP may indicate support for span based timeline measurement. The timeline measurement indicators of the plurality of BWPs other than the initial BWP may indicate support for PMO based timeline measurement. The timeline measurement indicators of the plurality of BWPs other than the initial BWP may indicate support for span and symbol based timeline measurement.

Claim 1:
A method of wireless communication at a user equipment, UE, comprising:
transmitting (<NUM>) a processing time parameter to a base station, the processing time parameter corresponding to a number of symbols;
receiving (<NUM>) a physical downlink control channel, PDCCH, from a base station during a PDCCH monitoring occasion in a span, wherein the span is a set of resources on which the UE is adapted to receive a PDCCH from the base station;
processing (<NUM>) the PDCCH received in the PDCCH monitoring occasion to determine resources for a scheduled channel, a number of symbols between a last symbol of the span and an initial symbol of the determined resources being equal to or greater than the number of symbols of the processing time parameter; and
transmitting or receiving (<NUM>) data on the scheduled channel based on the processed PDCCH.