Aspects of the invention are directed towards a system and method for saving power of a battery associated with item/s. One or more embodiments of the invention describe the method comprising steps of receiving a location and a charged status of a battery associated with each of one or more items placed inside a container. The method further describes steps of assigning a cluster to a group of items from the one or more items based on the location of each of the one or more items and identifying a master item from the group of items based on the charged status of each item in the cluster. The method also describes steps of transmitting a message to the master item for sensing a parameter for the group of items in the cluster and receiving a sensed parameter from the master item for the group of items.

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 and apparatus are provided for reconfiguration of a terminal in a wireless communication system. The method includes transmitting, to a BS, capability information including information associated with the terminal overheating and/or information associated with the terminal power consumption, receiving, from the BS, first configuration information including overheating assistance configuration information and/or preference configuration information for power saving, based on the transmitted capability information, identifying, based on the first configuration information, a triggering event for reporting assistance information including a triggering event for mitigating overheating and/or a triggering event for power saving, determining the assistance information corresponding to the identified triggering event, the assistance information including a preferred number of carriers assistance information, preferred bandwidth assistance information, a preferred number of MIMO layers assistance information, and/or DRX preference information, transmitting, to the BS, the determined assistance information, and receiving second configuration information generated based on the transmitted assistance information.

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.

Implementations describe a user equipment, an access node, and to methods for a user equipment and for an access node. The user equipment includes a receiver configured to receive a downlink control signal (CTRLS) over a downlink control channel (PDCCH) from an access node. The user device also includes a processor configured to, when the user equipment is in a Radio Resource Control (RRC) connected mode, switch on the receiver at a time point (t.sub.start.sub._.sub.symbol) when a symbol comprising the downlink control signal (CTRLS) starts in time domain. The processor is further configured to switch off the receiver at a time point (t.sub.end.sub._.sub.symbol) when the symbol comprising the downlink control channel (CTRLS) ends in time domain.

Device power consumption is reduced by operating using both one-way and two-way communication techniques. In an aspect a device operates in a first mode enabling one-way communication to an other device for a first portion of device operation time. The first mode includes transmitting a first set of messages to the other device while turning off a power supply used by a receiver of the device. The device switches between operating in the first mode and the second mode. The second mode enables two-way communication between the device and the other device for a second portion of device operation time less than the first portion of device operation. The second mode includes transmitting a second message to the other device, and in response to the transmitting the second message, turning on the power supply used by the receiver.

A communication method and apparatus of a terminal in a mobile communication system are provided. The method includes generating uplink control information for at least one activated cell; configuring, if the activated cell belongs to a Master Cell Group

(MCG) under a control of a Master evolved Node B (MeNB), an uplink control channel based on the uplink control information of the activated cell belonging to the MCG; and transmitting the uplink control channel to a Primary Cell (PCell).

A method of determining which of at least two connected mobile devices is to function as a host device, wherein the mobile devices first determine which of them is to act as an initial host device and which is to act as an initial peripheral device. The initial host device then receives instructions from a user as to which of the mobile devices is to be the host device. If the instructions indicate that the initial host device is to be the host device, the initial host device controls, as host device, the initial peripheral device as a peripheral device, and if the instructions indicate that the initial peripheral device is to be the host device, the initial host device passes control to the initial peripheral device to enable the initial peripheral device to control, as host device, the initial host device as a peripheral device.

A method and apparatus for uplink feedback for operating with a large number of carriers are disclosed herein. A method in a wireless transmit/receive unit (WTRU) includes receiving a plurality of transport blocks over a set of a plurality of configured carriers, generating hybrid automatic repeat request (HARQ)-acknowledgment (ACK) feedback for the transport blocks and determining a number of HARQ-ACK feedback bits to use for the HARQ-ACK feedback. Further, the WTRU may apply, to the HARQ-ACK feedback bits, Reed-Muller coding on a condition that the number of HARQ-ACK feedback bits is less than or equal to a threshold or convolutional coding on a condition that the number of HARQ-ACK feedback bits is greater than a threshold. The WTRU may then transmit the encoded HARQ-ACK feedback bits. In addition, the WTRU may conditionally append cyclic redundancy check (CRC) bits onto the HARQ-ACK feedback bits, and encode and transmit the CRC bits.

Techniques for wireless component monitoring are described herein. The techniques may include entering a low power mode to associate a radio frequency identification (RFID) component with a patient monitoring device within a first range. The techniques also include entering a high power mode wherein the patient monitoring device is to detect the RFID component within a second range of the patient monitoring device, wherein the second range is larger than the first range.