Data transmission method and device are provided. The method includes: determining a portion of a plurality of links as dedicated link, and the other portion of the plurality of links as ordinary link, wherein the dedicated link is configured to transmit control frames which include ordinary control frames and dedicated control frames, and the ordinary link is configured to transmit data frames and ordinary control frames; determining links for control frames to be transmitted and data frames to be transmitted; and when the dedicated link or the ordinary link obtains a transmission opportunity, transmitting a control frame or a data frame at a head of a queuing list of the link. By configuring the dedicated link, transmission efficiency of the control frames may be improved, compatibility with existing systems is relatively good, and complexity of design is relatively low.

An information handling system includes a publisher device and an offload device. Multiple subscriber devices are associated with the publisher device. The offload device communicates with the publisher device. The offload device receives a packet transmission from the publisher device, and translates a topic address of the packet transmission to multiple destination addresses. The offload device sends the packet transmission to each of the subscriber devices. Each of the subscriber devices is associated with a corresponding destination address of the multiple destination address. The offload device receives one or more acknowledgements from the subscriber devices, and combines the one or more acknowledgements into a composite completion message. The offload device sends the composite completion message to the publisher device.

Provided are a data transmission method and apparatus and a storage medium. The method includes: in a case where a user equipment (UE) determines that the UE is incapable of simultaneously transmitting uplink (UL) traffic and sidelink (SL) traffic, comparing a priority of a UL channel with a priority of an SL channel, and transmitting traffic according to a comparison result.

Aspects of the subject disclosure may include, for example, computing a first time gap associated with a completion of a first transfer of first data via a first network connection and a completion of a second transfer of second data via a second network connection that is different from the first network connection, determining, based on the computing of the first time gap, that the first time gap exceeds a threshold, and adjusting, based on the determining, respective shares of third data that are to be transferred via the first network connection and the second network connection. Other embodiments are disclosed.

To provide a communication device for transmitting a common response signal including data acquisition success/failure information of a plurality of links.

A communication device that performs wireless communication using a plurality of links includes a common data processing unit that includes a common storage unit of a cache type storing success/failure of acquisition of packets received on the plurality of links, and that performs common data processing on packets received on individual links, and a control unit that controls transmission of a response signal to the packets received. The control unit generates a common response signal including acquisition success/failure information received on the plurality of links on the basis of acquisition success/failure information held in the common storage unit.

A wireless device includes first and second transceivers for wireless communication and is operable to switch between first and second states, with the second state at least partly prohibiting communication by the first transceiver. The wireless device is configured to perform a control method which involves sharing of state data among wireless devices. According to the method, the wireless device receives, by the second transceiver, a state indicator and confidence data from one or more other wireless devices. The state indicator indicates a current state of the respective other wireless device, and the confidence data is indicative of a confidence of the current state. The control method sets the wireless device in the first or second state based on the state indicator and the confidence data.

In some implementations, a message indicating a request for delivery of data to user equipment (UE) (e.g. an IoT device) operative for communications in a mobile network may be received from an application server. One or more first loading or congestion indication values indicative of a first loading or congestion at one or more first network nodes along a first mobile network route may be obtained. In addition, one or more second loading or congestion indication values indicative of a second loading or congestion at one or more second network nodes along a second mobile network route may be obtained. The first or the second mobile network route may be selected based on at least one of the one or more first and the second loading or congestion indication values. The data may be delivered to the UE over the selected mobile network route.

A transmit chain (TX chain) of a user equipment (UE) transmits an uplink signal to a first wireless network associated with a first base station or a second wireless network associated with a second base station. The uplink signal includes information indicative of a first receive chain (RX chain) of the UE being synchronized to the first base station to receive first traffic from the first wireless network, and a second RX chain of the UE being synchronized to the second base station to receive second traffic from the second wireless network. The UE transmits uplink traffic for the first wireless network and the second wireless network to the second base station via the TX chain of the UE.

In order to start transmission of downlink data to an RLC layer with an appropriate data amount from a base station that performs Packet Data Convergence Protocol (PDCP) layer processing to another base station that performs Radio Link Control (RLC) layer processing, a base station 100 (MN) includes: an information obtaining unit configured to obtain information for controlling a downlink data flow in a Radio Link Control (RLC) layer for a terminal apparatus 300; and a communication processing unit 143 configured to transmit, to a base station 200 (SN) performing processing for a PDCP layer for the terminal apparatus 300, the information for controlling the downlink data flow, before the base station 100 (MN) detects a correct random access channel access.

A processing system may obtain values of carrier attributes for a new carrier to be deployed in a cellular network, obtain values of the carrier attributes and values of a configuration parameter for a plurality of existing carriers in the cellular network, and construct an attribute value matrix comprising the values of the carrier attributes for the plurality of existing carriers, where the attribute value matrix associates the carrier attributes to the plurality of existing carriers, apply a regression to a function associating the attribute value matrix to a vector of the values of the configuration parameter for the plurality of existing carriers to learn coefficients of the function, apply the coefficients to a vector comprising the values of the plurality of carrier attributes for the new carrier to generate a value of the configuration parameter for the new carrier, and apply the generated value to the new carrier.