Methods and apparatuses for implicitly reporting Doppler shift are disclosed. A method comprises receiving a configuration that indicates a TRS resource associated with a SRS resource for Doppler shift reporting; and transmitting the SRS resource, with a transmit frequency that is the same as a receive frequency of the TRS resource.

Certain aspects of the present disclosure provide techniques for applying uplink transmission configuration indicator (TCI) states with downlink reference signals to codebook based physical uplink shared channel (PUSCH) transmissions. An example method generally includes receiving, from a network entity, signaling of an uplink transmission configuration indicator (TCI) state with a target codebook based uplink transmission signal, determining if the TCI state has a source downlink reference signal (RS) and deciding how to process the codebook based uplink transmission based on the determination.

Certain aspects of the present disclosure provide techniques for applying uplink transmission configuration indicator (TCI) states with downlink reference signals to codebook based physical uplink shared channel (PUSCH) transmissions. An example method generally includes receiving, from a network entity, signaling of an uplink transmission configuration indicator (TCI) state with a target codebook based uplink transmission signal, determining if the TCI state has a source downlink reference signal (RS) and deciding how to process the codebook based uplink transmission based on the determination.

A computer implemented method includes transmitting a transmit command to a first data concentrator to send out a predetermined signal of predetermined characteristics according to a transmission setting, receiving a received signal from at least one second data concentrator, and determining if there are any signal transmission effects between the first data concentrator and the second data concentrator based on a comparison of the predetermined signal and the received signal.

Aspects herein describe increasing density of reference signal transmissions in wireless communications. A plurality of reference signal configurations, each indicating resource elements for one or more antenna ports over which reference signals for the one or more antenna ports are scheduled for transmission, can be received. An association configuration indicating an association between at least two antenna ports as having similar channel characteristics can also be received. A plurality of reference signals can be received in the resource elements corresponding to the at least two antenna ports as indicated in the at least two of the plurality of reference signal configurations, which can be used to perform a channel measurement of the similar channel characteristics of channels of the at least two antenna ports over at least a portion of the plurality of reference signals.

Diversity receiver front end system with amplifier phase compensation. A receiving system can include a first amplifier disposed along a first path, corresponding to a first frequency band, between an input of the receiving system and an output of the receiving system. The receiving system can include a second amplifier disposed along a second path, corresponding to a second frequency band, between the input of the receiving system and the output of the receiving system. The receiving system can include a first phase-shift component disposed along the first path and configured to phase-shift the second frequency band of a signal passing through the first phase-shift component based on a phase-shift caused by the first amplifier at the second frequency band.

Diversity receiver front end system with amplifier phase compensation. A receiving system can include a first amplifier disposed along a first path, corresponding to a first frequency band, between an input of the receiving system and an output of the receiving system. The receiving system can include a second amplifier disposed along a second path, corresponding to a second frequency band, between the input of the receiving system and the output of the receiving system. The receiving system can include a first phase-shift component disposed along the first path and configured to phase-shift the second frequency band of a signal passing through the first phase-shift component based on a phase-shift caused by the first amplifier at the second frequency band.

Systems and methods can support identifying radio transmissions associated with autonomous or remote-controlled vehicles. Radio frequency signals may be received using one or more sensors, wherein the sensors comprise radio receivers. Radio frequency fingerprints may be identified within one or more of the radio frequency signals, wherein the radio frequency fingerprints comprise radio signal characteristics or radio hardware identifiers. A stored radio frequency fingerprint may be determined as matching the received radio frequency fingerprint. A motion characteristic may be computed. The received radio frequency fingerprint may be associated with an autonomous or remote-controlled vehicle based upon the stored radio frequency fingerprint or the motion characteristic. Information regarding the identified autonomous or remote-controlled vehicle may be presenting to one or more operator interfaces.

Systems and methods can support identifying radio transmissions associated with autonomous or remote-controlled vehicles. Radio frequency signals may be received using one or more sensors, wherein the sensors comprise radio receivers. Radio frequency fingerprints may be identified within one or more of the radio frequency signals, wherein the radio frequency fingerprints comprise radio signal characteristics or radio hardware identifiers. A stored radio frequency fingerprint may be determined as matching the received radio frequency fingerprint. A motion characteristic may be computed. The received radio frequency fingerprint may be associated with an autonomous or remote-controlled vehicle based upon the stored radio frequency fingerprint or the motion characteristic. Information regarding the identified autonomous or remote-controlled vehicle may be presenting to one or more operator interfaces.

Over-the-air (OTA) phase synchronization for reciprocity-based coordinated multipoint (CoMP) joint transmission is disclosed. Phase synchronization reference signals (PSRS) are transmitted within a CoMP operation that can be used to determine the phase drifts of the transmit and receive chains of the base stations. These phase drifts can then be used to obtain a relative phase drift between the uplink and downlink channels. When estimating the uplink channel from the sounding reference signals (SRS), the relative phase drift may be applied to estimate the downlink channel as well. The OTA phase synchronization may be performed with a user equipment (UE)-assisted or inter-base station procedures.