Techniques for energy efficient notification services are described. A telecommunications device may acquire multimedia/notification service data from various upstream units, e.g., one or more multimedia/notification service servers, at least one push notification service server and/or a storage system. The telecommunications device may select a communication channel between the telecommunications device and the various upstream units for acquiring multimedia/notification service data. The telecommunications device may select the communications channel based at least in part on efficiencies, e.g., it may select the most energy efficient communications channel. The telecommunications device may, in some instances, acquire the multimedia/notification service data as pushes from one or more upstream units (e.g., a push notification service server), and may, in some instances, acquire the multimedia/notification service data as pulls from one or more upstream units (e.g., one or more multimedia/notification service servers and/or a storage system).

Embodiments of the present disclosure describe devices, methods, computer-readable media and systems configurations for managing state transitions of communication circuitries in wireless networks. Embodiments manage radio resource control (RRC) state transitions and/or discontinuous reception (DRX) state transitions. Other embodiments may be described and/or claimed.

Methods, systems, and devices for wireless communication are described. The method may include receiving an UL grant for each CC of a plurality of CCs. In an aspect, each UL grant may include a number of transport blocks (TBs) assigned to each CC. The method may further include sorting CCs among the plurality of CCs as a function at least in part based on the number of TB for each of the CCs, and transmitting one or more packet data units (PDUs) using a subset of CCs of the plurality of CCs. In an aspect, the subset of CCs may be based at least in part on the sorting, and any CC of the plurality of CCs in which only medium access control (MAC) padding PDUs would be transmitted may not be included in the subset of CCs.

A network device includes one or more memories and one or more processor circuits coupled to the one or more memories. The one or more processor circuits are configured to cause providing for transmission a request directed to a network controller to change a power state of the network device, receiving a grant from the network controller in response to the request, and changing the power state of the network device in response to receiving the grant. The power state of the network device includes a running power state and a standby power state, where the standby power state includes an active mode and an idle mode. A network controller for granting a request from the network device to change a power state of the network device is also disclosed.

Network device coordination schemes allocate resources, configure transmission policies, and assign users to utilize resources. A set of transmission policies is generated to services users while each user maintains a throughput threshold. The set of transmission policies can be altered to alter a network energy efficiency. The set of transmission polices can be altered based on energy consumption, data throughput, channel characteristics, measured interference, and the like.

In an embodiment, triplets of network-enabled FCIs operate to monitor the three phases of a power distribution system. In being network-enabled, the FCIs also operate as nodes of an RF mesh network. In an embodiment, upon the detection of a power failure, the triplet of network FCIs is serially operated so as to extend their networking capabilities by approximately three times.

In data communication systems, data packet processing for transmission and reception may go through different stages such as segmentation or packing of the data packets on the transmission side and duplicate detection, reordering, and reassembly on the reception side. For reliable data transmission between peer entities, acknowledgement based retransmission protocol known as Automatic Repeat Request may be used where each retransmission can further segment previously transmitted data packets. This type of data processing may lead to high memory requirements and high processing requirements. A method and apparatus are disclosed that maintain additional information about the data packets which enables virtual segmentation and packing on the transmitter side and on the receiver side, virtual duplicate detection, reordering and reassembly. Performing the segmentation, packing, duplicate detection, reordering and reassembly operations in virtual manner reduce the memory and processing requirements and this may lead to reduced power consumption and improved user experience.

A method for waking up wireless device includes the following concrete steps: the master device in the wireless devices contains RF transceiver module, when the RF transceiver module works at operating frequency, they are used for receiving and sending data frame; The wireless device also contains the waking-up device used for continuously sending waking data packet to wake up a slave device; the RF transceiver module of the slave device in the wireless device converts frequency to wake frequency, then go dormant, when it wakes, if it receives waking data packet, it converts to operating frequency and broadcasts the news that the slave device is already awake, when the master device receives the news, it sends data frame to the slave device; the slave device receives the data frame from the master device and executes instruction.

A method of establishing an asymmetric network between at least one node device and a gateway device is provided. The method may include transmitting a reduced data package from the node device, receiving the reduced data package in a data stream at the gateway device, validating bits of the data stream, and retrieving the reduced data package based on the validated bits.

A mobile device allows transmission of additional outgoing application data requests in response to occurrence of receipt of data transfer from a remote entity, user input in response to a prompt displayed to the user, and a change in a background status of an application executing on the mobile device. Additional outgoing application data requests are foreground application requests.