In a case that a base station apparatus or a terminal apparatus performs transmission by beamforming and further performs carrier aggregation, Quasi-colocation (QCL) is configured between component carriers. The configured QCL is used for calculating Channel State Information (CSI). Further, the CSI of a component carrier is calculated based on the configuration of QCL between the component carrier and an antenna port. Further, the CSI of the component carrier is calculated based on the number of antenna ports to be used.

To properly perform communication also in the case of supporting activation of a plurality of BWPs, a user terminal according to one aspect of the present disclosure has a receiving section that receives downlink control information for indicating activation of a predetermined BWP among one or more partial frequency bands (BWP: Bandwidth Part) configured within a carrier, and a control section that controls activation of one or a plurality of BWPs based on at least one of the downlink control information, MAC control information and higher layer signaling.

Methods, systems, and devices for wireless communication are described. In one example, an indication in a first control message in a control region of a first transmission time interval (TTI) identifies a data region of the first TTI. A data region of the second TTI may be identified based on a grant of resources received in a second control message of a second TTI, where the data region of the first TTI and the control region of the second TTI are frequency division multiplexed with the data region of the second TTI. Other examples include a downlink grant at the beginning of a control region and uplink grants at the end of the control region. In other examples, a downlink grant for a user equipment (UE) may include an indication of resources allocated to the UE in that resource block and a second resource block.

Methods, systems, and devices for wireless communication are described. In one example, an indication in a first control message in a control region of a first transmission time interval (TTI) identifies a data region of the first TTI. A data region of the second TTI may be identified based on a grant of resources received in a second control message of a second TTI, where the data region of the first TTI and the control region of the second TTI are frequency division multiplexed with the data region of the second TTI. Other examples include a downlink grant at the beginning of a control region and uplink grants at the end of the control region. In other examples, a downlink grant for a user equipment (UE) may include an indication of resources allocated to the UE in that resource block and a second resource block.

This invention aims to achieve appropriate communication in a communication system which uses a cell defined to apply listening. This invention provides a user terminal which performs communication using cells including an LAA cell which applies listening before UL transmission, the terminal including a transmission unit which transmits uplink control information and uplink data, and a control unit which controls transmission of the uplink control information and the uplink data, wherein the control unit performs control to transmit the uplink control information using an uplink channel other than an uplink shared channel of the LAA cell.

This invention aims to achieve appropriate communication in a communication system which uses a cell defined to apply listening. This invention provides a user terminal which performs communication using cells including an LAA cell which applies listening before UL transmission, the terminal including a transmission unit which transmits uplink control information and uplink data, and a control unit which controls transmission of the uplink control information and the uplink data, wherein the control unit performs control to transmit the uplink control information using an uplink channel other than an uplink shared channel of the LAA cell.

A terminal apparatus using large FFT points transmits a reference signal such that short OFDM symbols are repeated.

A terminal apparatus using large FFT points transmits a reference signal such that short OFDM symbols are repeated.

The present invention relates to an apparatus and a method for performing measurement reporting considering in-device coexistence interference. The present invention provide a user equipment transmitting a measurement report in a wireless communication system, comprising an interference detection unit, an assistant information generation unit, a measurement controller and a transmitter. According to the present invention, a measurement procedure can be clearly defined in an interference delicate band where in-device coexistence interference occurs and scheduling restrictions on an eNodeB due to measurement reporting about an interference delicate band can be reduced.

The present invention relates to an apparatus and a method for performing measurement reporting considering in-device coexistence interference. The present invention provide a user equipment transmitting a measurement report in a wireless communication system, comprising an interference detection unit, an assistant information generation unit, a measurement controller and a transmitter. According to the present invention, a measurement procedure can be clearly defined in an interference delicate band where in-device coexistence interference occurs and scheduling restrictions on an eNodeB due to measurement reporting about an interference delicate band can be reduced.