Systems and methods for ACM trajectory include receiving data at a communications receiver; decoding the received data based on a selected MODCOD; monitoring a number of iterations used to decode the data using the selected MODCOD; comparing the number of iterations used to decode the data using the first selected MODCOD to a reference number of iterations; and adjusting a SNR threshold value for the selected MODCOD where the number of iterations used to decode the data using the first selected MODCOD is greater than the reference number of iterations.

A method for balancing inroute traffic load that contains both guaranteed QoS and best effort traffic. Hierarchical grouping levels are defined with the lowest level corresponding to inroutes within the system. Certain levels have common symbol rates, modulation rates, or both. When a new terminal requires admission, it is assigned to entries in the different hierarchical levels so that the inroute traffic load across all levels are balanced. Terminals are admitted to inroutes based, in part, on their channel quality indicator. Inroute traffic load can periodically rebalance based on elapsed time or terminal redistribution.

Embodiments of a method and a device are disclosed. In an embodiment, a method for performing physical layer operations in a communications network is disclosed. The method involves determining a desired error management mode for a receiver at a first network node, at the first network node, embedding an indication of the desired error management mode into a forward error correction (FEC) frame, and transmitting the FEC frame from the first network node. In an embodiment, embedding an indication of the desired error management mode into an FEC frame includes embedding an operations, administration, and management (OAM) word into the FEC frame to communicate the indication of the desired error management mode.

A base station apparatus includes a transmitter configured to transmit configuration information related to selection of an MCS table to the terminal apparatus, and a controller configured to apply an MCS table selected based on the configuration information related to selection of the MCS table to configure an MCS index of a PDSCH. The MCS index is selected from a range of MCS indexes restricted to a part of MCSs within the MCS table. The range of MCS indexes restricted to the part of MCSs is a range of MCS indexes of values of n-th power of (), and the range of MCS indexes of values of n-th power of () is variably controlled by the controller. The configuration information related to selection of the MCS table includes information for indicating which of a 64QAM mode MCS table and a 256QAM mode MCS table is to be applied.

A method and apparatus for data transmission between a transmitter-side data transmission unit and a receiver-side data transmission unit is provided. The method includes transmitting a first portion of a data packet from a real-time application to the receiver-side data transmission unit, receiving a communication channel availability indicator from the receiver-side data transmission unit, and, if the availability indicator shows that the communication channel is available, adjusting the configuration of the remaining data of the data packet to be transmitted within the maximum permissible data transmission time which is still available for the data packet and transmitting the remaining data to the receiver-side data transmission unit. A transmitter-side data transmission unit and a receiver-side data transmission unit configured to execute the data transmission method are also provided.

The present disclosure discloses a method and a media device for adaptive streaming of multimedia data. The method comprises receiving, by a media device, a request for streaming a multimedia data, where the multimedia data is divided into a plurality of data packets, identifying one or more network interfaces available in the media device, allocating one or more data packets from the plurality of data packets, to the one or more network interfaces and requesting the one or more data packets of the multimedia data over the allocated one or more interfaces, for adaptively streaming the multimedia data on the media device.

A method of link adaptation is described including establishing, using a first serving point, a multi-user full duplex mode wherein the multi-user full duplex mode enables a downlink to a first wireless device and an uplink from a second wireless device. The first serving point requests from the first wireless device a first channel quality indicator indicating channel quality between the serving point and the first wireless device in a full duplex time period and a second channel quality indicator indicating channel quality between the serving point and the first wireless device in non-full duplex time period. The full duplex mode is evaluated using the first and second channel quality indicators. At least one parameter of the full duplex mode is adjusted based on the evaluating.

Provided are a transmission parameter determination method, a terminal device and a network device. The method comprises: the first terminal device determines a transmission parameter of the first terminal device according to a channel busy ratio (CBR), a priority of a service to be transmitted and a first mapping relationship. The first mapping relationship is configured to indicate a correspondence among CBRs, priorities of services and transmission parameters of the first terminal device, the transmission parameter of the first terminal device comprises a modulation and coding scheme (MCS) index, an MCS table corresponding to the MCS index of the first terminal device is different from an MCS table corresponding to an MCS index of a second terminal device, and the second terminal device is a terminal device supporting a version of a communication protocol different from a version of a communication protocol supported by the first terminal device.

In one embodiment, a method includes identifying, by a packet analyzer, one or more silence packets within a network and initiating, by the packet analyzer, a replacement of the one or more silence packets with one or more performance silence packets. The one or more performance silence packets are transmitted between a first node of the network and a second node of the network during a silence period. The method further includes receiving, by the packet analyzer, information associated with the one or more performance silence packets; and analyzing, by the packet analyzer, a connection between the first node of the network and the second node of the network using the information associated with the one or more performance silence packets.

A user equipment (e.g., C-V2X user equipment) can receive a transmission from a network device of a mobile network and decode the transmission using a first forward error correction code. It can determine an attribute of the transmission to determine a condition of the communication channel. Based on the condition of the communication channel, it can facilitate transmitting feedback to the network device, wherein the feedback is forwarded through the mobile network to an application server device that selects a second forward error correction code based on the feedback. The second forward error correction code can be transmitted to, and received by, the user equipment. The user equipment can use the second forward error correction code to decode subsequent transmissions.