A user equipment (UE) is described that includes a PDCCH receiver configured to receive a PDCCH with a DCI format, the PDCCH scheduling a first physical uplink shared channel (PUSCH) in subframe n and a second PUSCH in subframe n+1, the DCI format including an information field for indicating that a starting position of the first PUSCH is later than an initial boundary of an initial symbol of the subframe n. The UE also includes a channel sensor configured to perform a first channel access before the first PUSCH. The UE further includes a PUSCH transmitter configured to transmit the first PUSCH and the second PUSCH, in a case when the first channel access is successful. The channel sensor is further configured to, in a case when the first channel access is not successful, perform a second channel access before the second PUSCH.

A user equipment (UE) is described that includes a PDCCH receiver configured to receive a PDCCH with a DCI format, the PDCCH scheduling a first physical uplink shared channel (PUSCH) in subframe n and a second PUSCH in subframe n+1, the DCI format including an information field for indicating that a starting position of the first PUSCH is later than an initial boundary of an initial symbol of the subframe n. The UE also includes a channel sensor configured to perform a first channel access before the first PUSCH. The UE further includes a PUSCH transmitter configured to transmit the first PUSCH and the second PUSCH, in a case when the first channel access is successful. The channel sensor is further configured to, in a case when the first channel access is not successful, perform a second channel access before the second PUSCH.

A wireless communication quality visualizing device includes a display data generating unit which generates display data for displaying the communication quality from data on the communication quality collected by the multiple measurement devices in accordance with a measurement condition which can specify information for measuring the communication quality, a position determining unit which determines whether or not the measurement device has moved and for estimating a position of the measurement device after the movement, and a condition setting unit which changes the measurement condition when the position determining-unit determines that the measurement device has moved.

A wireless communication quality visualizing device includes a display data generating unit which generates display data for displaying the communication quality from data on the communication quality collected by the multiple measurement devices in accordance with a measurement condition which can specify information for measuring the communication quality, a position determining unit which determines whether or not the measurement device has moved and for estimating a position of the measurement device after the movement, and a condition setting unit which changes the measurement condition when the position determining-unit determines that the measurement device has moved.

Methods, systems, and devices for wireless communications are described in which a wideband bandwidth part (BWP) may be used for periodic communications bursts, and a user equipment (UE) may switch to a narrowband BWP between the communications bursts, which may provide reduced power consumption and reduced processing overhead at the UE. An end of burst indicator may be provided with the wideband BWP communications that indicates a timing for switching from the wideband BWP to the narrowband BWP. The end of burst indicator may be provided prior to a last downlink shared channel communication of the communications burst, and the UE may switch to the narrowband BWP upon completion of the last downlink shared channel communication. The UE may switch from the narrowband BWP to the wideband BWP for a subsequent communications burst autonomously or based on an explicit indication.

A network-side device, user equipment, and method for blind area management. The network-side device includes a receiving module configured to receive measurement information sent by user equipment, a processor, and a non-transitory computer-readable storage medium storing a program to be executed by the processor. The program includes instructions to identify a status of the user equipment according to the measurement information received from the user equipment, wherein the status of the user equipment is a normal communication state or a blind area state, and the blind area state includes at least one of a beam biased state, an interfered state, or a blocked state, and perform blind area management of the user equipment when the user equipment is in the blind area state.

Aspects described herein relate to communicating with a base station over multiple frequency bands using a first beam, and switching from the first beam to the second beam during a time period or based on a timing of the reference band. Other aspects relate to transmitting an indication of one or more parameters for determining a reference band of the multiple frequency bands to use as a timing reference for switching beams for communicating over the multiple frequency bands.

Aspects described herein relate to communicating with a base station over multiple frequency bands using a first beam, and switching from the first beam to the second beam during a time period or based on a timing of the reference band. Other aspects relate to transmitting an indication of one or more parameters for determining a reference band of the multiple frequency bands to use as a timing reference for switching beams for communicating over the multiple frequency bands.

A wireless device, in a connected state, receives a release message indicating an uplink grant of a first cell for use in an inactive state. The uplink grant is associated with a synchronization signal block (SSB) of a plurality of SSBs of the first cell. In response to the release message, the wireless device transitions from the connected state to the inactive state. In the active state, at least one beam failure instance is detected based on the SSB. A beam failure detection and recovery procedure on the first cell is initiated, for the first cell and in the inactive state, based on: a measurement quantity of the SSB being lower than a first threshold, and a cell measurement quantity of one or more SSBs of the plurality SSBs of the first cell being higher than a second threshold.

A wireless device, in a connected state, receives a release message indicating an uplink grant of a first cell for use in an inactive state. The uplink grant is associated with a synchronization signal block (SSB) of a plurality of SSBs of the first cell. In response to the release message, the wireless device transitions from the connected state to the inactive state. In the active state, at least one beam failure instance is detected based on the SSB. A beam failure detection and recovery procedure on the first cell is initiated, for the first cell and in the inactive state, based on: a measurement quantity of the SSB being lower than a first threshold, and a cell measurement quantity of one or more SSBs of the plurality SSBs of the first cell being higher than a second threshold.