Provided are a method and device for monitoring a downlink control channel of a terminal in a wireless communication system. The terminal receives configuration information which informs of the position of an SSB or configuration information which informs of the position of an LTE CRS, and receives configuration information which informs of a monitoring occasion for detecting a wake up signal (WUS). If first PDCCH monitoring for detecting the wake up signal is not required since a resource of the monitoring occasion overlaps with a resource of the SSB and/or a resource of the LTE CRS, the terminal performs second PDCCH monitoring in a next discontinuous reception (DRX)-on duration.

Method and UE are provided for scheduling for PDCCH PEI detection. In particular, a BS can transmit a higher layer signaling to a UE. The higher layer signaling includes a configuration of at least one configurable PDCCH candidate number for PEI procedure used under a non-active mode. After receiving the higher layer signaling, the UE performs blind decoding under the non-active mode according to the configuration of the at least one configurable PDCCH candidate number.

A control apparatus for a communication device includes: a data acquisition unit that acquires data regarding a use condition of a communication device to be monitored from the communication device; a data analysis unit that analyzes the use condition of the communication device to be monitored based on the acquired data regarding the use condition of the communication device; and a device control unit that controls the communication device to be monitored to shift between a normal mode and a power saving mode based on a result of the analysis by the data analysis unit.

A method for a terminal receiving a signal in a wireless communication system, according to one embodiment of the present invention, may comprise: receiving a specific signal giving an early indication of whether paging DCI will be provided in a PO configured for a paging operation in an idle mode or deactivation mode; and, on the basis of the specific signal, determining whether to skip a paging DCI detection procedure, wherein the specific signal may be a PDCCH signal carrying specific DCI configured for the idle mode or deactivation mode, and even if the specific DCI indicates that the paging DCI will be provided in at least one PO, on the basis that the specific DCI may be connected to a plurality of POs, a terminal may decide to skip the paging DCI detection procedure if the at least one PO in which the paging DCI is provided is not configured in the terminal.

Certain aspects of the present disclosure provide techniques for channel state information measurement adaptation to maximum multiple-input multiple-output layers. A method that may be performed by a user equipment (UE) includes receiving a first channel state information (CSI) report configuration including one or more first CSI reference signal (CSI-RS) resources, wherein each first CSI-RS resource comprises a first resource set; determining, based on an indication of a maximum number of multiple-input multiple-output (MIMO) layers that the UE is expected to receive, a first resource subset on which to report first CSI; and reporting the first CSI to a base station (BS), wherein the first CSI is based on the determined first resource subset.

A mobile device includes a user interface having a display panel and a touch panel, a network interface to communicate with an external network, a memory to store a password and an authorized user, a functional unit to sense a user and a motion of the mobile device during a power saving mode, and a control unit to control operations of the mobile device, and to perform an unlocking operation during the power saving mode to unlock the mobile device. The unlocking operation includes a motion detection process of sensing the motion of the mobile device, a user identification process of determining that a sensed user represents the authorized user, in response to the sensed motion of the motion detecting process, and an unlocking process of unlocking the mobile device according to the determination of the user identification process.

A method of management of a communication device in an aircraft may include transitioning the communication device from a normal mode to a disabled mode based on a calculated device sleep time based on data associated with transportation information of the device. One of these modes may be a state of the device in which a transceiver of the device is deactivated and the other mode may be a state of the device in which the transceiver is activated. Therefore, the device sleep time determines when the wireless device's transceiver may not be activated.

A patient monitoring system includes at least two wireless sensing devices, each configured to measure a different physiological parameter from a patient and wirelessly transmit a parameter dataset. The system further includes a receiver that receives each parameter dataset, a processor, and a monitoring regulation module executable on the processor to assign one of the at least two wireless sensing devices as a dominant wireless sensing device and at least one of the remaining wireless sensing devices as a subordinate wireless sensing device. The physiological parameter measured by the dominant wireless sensing device is a key parameter and the parameter dataset transmitted by the dominant wireless sensing device is a key parameter dataset. The key parameter dataset from the dominant wireless sensing device is processed to determine a stability indicator. The subordinate wireless sensing device is then operated based on the stability indicator for the key parameter.

Aspects disclosed in the detailed description include power saving techniques in computing devices. In particular, as data is received by a modem processor in a computing device, the data is held until the expiration of a modem timer. The data is then passed to an application processor in the computing device over a peripheral component interconnect express (PCIe) interconnectivity bus. On receipt of the data from the modem processor, the application processor sends data held by the application processor to the modem processor over the PCIe interconnectivity bus. The application processor also has an uplink timer. If no data is received from the modem processor before expiration of the uplink timer, the application processor sends any collected data to the modem processor at expiration of the uplink timer. However, if data is received from the modem processor, the uplink timer is reset.

A method of wireless communication is performed by a first device. The method includes suspending wake up signal (WUS) monitoring for a specified period of time, for a number of cycles, or until a message is received instructing resumption of monitoring. The method also includes resuming wake up signal monitoring after the specified period of time, the number of cycles, or after the message is received instructing resumption of monitoring.