JPWO2019160775A5

JPWO2019160775A5 -

Info

Publication number: JPWO2019160775A5
Application number: JP2020542449A
Authority: JP
Publication date: 2022-02-01
Anticipated expiration: 2039-02-08

Claims

It ’s a wireless communication method.
The step of receiving the sounding reference signal (SRS) configuration from the network, and
It is a step of configuring at least four antennas of an entity scheduled based on the SRS configuration.
At least one of the four antennas is configured such that the SRS configuration simultaneously supports SRS antenna switching and uplink (UL) multi-input multi-output (MIMO) communication .
A step comprising configuring the scheduled entity to simultaneously support 1T4R SRS antenna switching and selection of the 1T2R antenna for UL MIMO communication .
A method comprising the steps of transmitting SRS communication according to the SRS configuration.

The method of claim 1, further comprising reporting the user equipment (UE) capability of transmitting the SRS communication to the network.

The scheduled entity comprises four antennas configured to operate in 2T4R mode, and the configuration step is that two of the four antennas switch between the SRS antenna and the UL MIMO communication. The method of claim 1, comprising the steps of configuring said scheduled entity according to an SRS 2T4R configuration configured to support at the same time.

Claimed, wherein the constituting step comprises an unequal number of antennas configured to support switching of the SRS antenna in the first UL channel and said UL MIMO communication in the second UL channel. The method described in 3 .

The configuration step simultaneously performs the switching of the SRS antenna in the first UL channel and the UL MIMO communication in the second UL channel with the four antennas configured to support the switching of the SRS antenna. The method of claim 4 , comprising the step of having said four antenna pairs configured to support.

3. The configuration step comprises a step having an equal number of antennas configured to support switching of the SRS antenna in the first UL channel and said UL MIMO communication in the second UL channel. The method described in.

The method of claim 1, wherein the configuring step comprises configuring the scheduled entity to implement an SRS pattern that is shifted based on the parameters associated with the scheduled entity.

It ’s a wireless communication device,
A receiving circuit configured to receive a sounding reference signal (SRS) configuration from the network,
An antenna circuit configured to constitute at least four antennas of an entity scheduled based on the SRS configuration.
At least one of the four antennas is configured such that the SRS configuration simultaneously supports SRS antenna switching and uplink (UL) multi-input multi-output (MIMO) communication .
An antenna circuit comprising configuring the scheduled entity to simultaneously support 1T4R SRS antenna switching and selection of the 1T2R antenna for UL MIMO communication .
A wireless communication device comprising a transmission circuit configured to transmit SRS communication according to the SRS configuration.

28. The wireless communication device of claim 8 , wherein the antenna circuit is configured to configure the at least four antennas to perform an SRS pattern that is shifted based on the parameters associated with the scheduled entity. ..

The wireless communication device according to claim 9 , wherein the parameter is the total number of antennas included in the scheduled entity.

It ’s a wireless communication method.
A step of receiving a transmit capability report from a scheduled entity, wherein the scheduled entity comprises at least four antennas.
A step based on the transmit capability report to determine whether the scheduled entity can simultaneously support sounding reference signal (SRS) antenna switching and uplink (UL) multi-input multi-output (MIMO) communication. When,
A step in generating an SRS configuration for the scheduled entity based on the decision.
The default SRS configuration comprises configuring at least one of the at least four antennas to support switching of the SRS antenna and UL MIMO communication simultaneously .
A method comprising the step of generating an SRS 1T4R such that the generating step simultaneously supports 1T4R SRS antenna switching and selection of the 1T2R antenna for UL MIMO communication .

The scheduled entity comprises four antennas configured to operate in 2T4R mode, and the steps to generate are such that two of the four antennas switch between the SRS antennas and the UL MIMO communication. 11. The method of claim 11 , comprising the step of generating an SRS 2T4R configuration configured to support at the same time.

The generating step comprises having an unequal number of antennas configured to support switching of the SRS antenna in the first UL channel and said UL MIMO communication in the second UL channel. 12. The method of claim 12 , comprising the step of generating the SRS configuration.

It ’s a wireless communication device,
A receiving circuit configured to receive a transmit capability report from a scheduled entity, wherein the scheduled entity comprises at least four antennas.
Make a decision based on the transmit capability report whether the scheduled entity can simultaneously support sounding reference signal (SRS) antenna switching and uplink (UL) multi-input multi-output (MIMO) communication. And the decision circuit composed of
A generation circuit configured to generate an SRS configuration for the scheduled entity based on the determination.
The default SRS configuration comprises configuring at least one of the at least four antennas to support switching of the SRS antenna and UL MIMO communication simultaneously .
A wireless communication device comprising a generation circuit, wherein the generation comprises generating the scheduled entity to simultaneously support 1T4R SRS antenna switching and selection of the 1T2R antenna for UL MIMO communication .

A computer program comprising code that performs the method of any one of claims 1-7 and 11-13.