Advanced detectors for vector signaling codes are disclosed which utilize multi-input comparators, generalized on-level slicing, reference generation based on maximum swing, and reference generation based on recent values. Vector signaling codes communicate information as groups of symbols which, when transmitted over multiple communications channels, may be received as mixed sets of symbols from different transmission groups due to propagation time variations between channels. Systems and methods are disclosed which compensate receivers and transmitters for these effects and/or utilize codes having increased immunity to such variations, and circuits are described that efficiently implement their component functions.

A method at a mobile device for increasing measurement gaps to facilitate inter-radio access technology measurements is provided. The method at the mobile device: receiving inter-radio access technology (RAT) measurement configuration information from the network; when the device is actively connected, determining whether a triggering criterion is met, based on the received information; and if the triggering criterion is met, increasing the time available for measurements.

The present invention addresses the problem of checking, on the wireless control device side, error occurrence states of CPRI links in detail. In order to solve the problem, this wireless device stores, in wireless link regions that can be freely used by a user, error occurrence states of wireless links, and transmits the error occurrence states to a wireless control device.

A particular overall architecture for transmission over a bonded channel system consisting of two interconnected MoCA (Multimedia over Coax Alliance) 2.0 SoCs (Systems on a Chip) and a method and apparatus for the case of a “bonded” channel network. With a bonded channel network, the data is divided into two segments, the first of which is transported over a primary channel and the second of which is transported over a secondary channel.

Group acknowledgement of a range of consecutive sequence numbers associated with non-received data. The acknowledgement includes indication of at least one endpoint of the range. It can include, for example, the sequence numbers of the first and last non-received data or the last received data packet. The feedback can refer also to a single sequence number, relating to a single PDU. The triggering of the acknowledgement can be done by conventional gap detection or receiver timers.

Embodiments provide apparatuses, methods and computer programs for mobile communication systems comprising base station transceivers and mobile transceivers. An apparatus (10, 20) for a base station transceiver (100) (and/or a mobile transceiver (200)) of a mobile communication system (300), comprises a transceiver module (12, 22) to communicate with the mobile transceiver (200) (and/or base station transceiver (100)) using at least a first communication channel and a second communication channel, wherein the first communication channel is more reliable than the second communication channel. The apparatus (10, 20) further comprises a controller module (14, 24) to control the transceiver module (12, 22), and to provide a data service to the mobile transceiver (200) (and/or base station transceiver (100)). The data service comprises first and second data packets, wherein the first data packets comprise information related to core data of the data service, and wherein the second data packets comprise information related to optional refinement data for the data service. The first data packets use the first communication channel, and the second data packets use the second communication channel.

The present invention relates to the technical field of wireless communications. Disclosed are a method, system and device for determining a transmission link type, to solve the receiving/transmitting duplexing problem in the prior art of a D2D link receiving terminal on a D2D link and an N2D link. The method comprises: a D2D receiving terminal reports to a network side device a first resource usage request on an N2D link, such that the network side device, after receiving the first resource usage request, determines the transmission link type of the D2D receiving terminal over a subframe n; and according to the type of the subframe n or the link type indication information received from the network side device, the D2D receiving terminal determines the transmission link type over the subframe n, the subframe n being a D2D subframe. An embodiment of the present invention improves system resource utilization and system performance.

A subscriber unit for automatic repeat request mechanisms and related methods are disclosed. The subscriber unit may comprise transmitting a single carrier frequency domain equalization (SC-FDE) signals using a plurality of hybrid automatic repeat request (ARQ) mechanisms. The plurality of hybrid ARQ mechanisms may use a stop and wait architecture. Further, each of the plurality of hybrid ARQ mechanisms may transmit in a different time interval and each time interval includes at least one time slot. The subscriber unit may receive downlink data signals using hybrid ARQ and may receive acknowledgments (ACKs)/negative acknowledgments, wherein the ACK/NAKs may be received in a time period between the downlink transmissions.

A communication system uses multiple communications links, preferably links that use different communications media. The multiple communications links may include a high latency/high bandwidth link using a fiber-optic cable configured to carry large volumes of data but having a high latency. The communications links may also include a low latency/low bandwidth link implemented using skywave propagation of radio waves and configured to carry smaller volumes of triggering data with a lower latency across a substantial portion of the earth's surface. The triggering data may be sent in a data stream as data frames without headers, security information, or error checking codes. The two communications links may be used together to coordinate various activities such as the buying and selling of financial instruments.

The present disclosure discloses a method for processing data, a network node, and a terminal. The method includes determining a first data block division manner according to first baseband capability information, where the first baseband capability information includes at least one piece of: capability information, space layer information, or time-frequency resource information of a baseband processing unit. The method also includes dividing a to-be-sent data block into first processing blocks according to the first data block division manner and performing first baseband processing on the first processing block based on a granularity of the first processing block.