The invention relates to a transmitting system, comprising an SNS client that receives SNS messages from at least one SNS server, and a transmitter which transmits a broadcast signal, including the SNS messages and mobile service data, for a mobile broadcast. The transmitter includes: an RS frame encoder, which performs RS encoding and CRC encoding on the mobile service data for the mobile broadcast so as to build RS frames, and divides each RS frame into a plurality of portions; a group-forming unit, which forms data groups that contain each of the plurality of portions, and which adds known data sequences and signaling data to each data group; an inter-leaver for interleaving data of the data groups; and a trellis encoding unit for trellis-encoding the interleaved data.

A system and method for wirelessly transmitting audiovisual information. A first plurality of packets including audiovisual information may be generated. A second plurality of packets including error correction coding information for the audiovisual information may be generated. Control information for associating the error correction coding information with the audiovisual information may be generated, and a third plurality of packets including the control information may also be generated. The plurality of packets, including the first, second, and third pluralities of packets, may be transmitted to a mobile device in a wireless manner. The control information may inform the mobile device of the association of the first error correction coding information with the audiovisual information.

Wireless transport of multiple service versions of a transport framework. First and second information may be processed for transmission, respectively, according to first and second service versions of a transport framework. The first and second information may be encoded using a first type of error correction coding; after processing, the processed first information may include error correction coding according to the first type of error correction coding, while the processed second information may remain uncoded according to the first type of error correction coding. Control information may be generated indicating that the second information remains uncoded according to the first type of error correction coding, which may signal to receivers that the second information is processed according to the second service version of the transport framework. Packets including the processed first information, the processed second information, and the control information may be generated and transmitted in a wireless manner.

A method is described for transmitting broadcast signals. First encoding of first broadcast service data is performed. Second encoding of the first encoded first broadcast service data is performed. The broadcast signals having the second encoded first broadcast service data multiplexed with second broadcast service data are transmitted. Each of the second encoded first broadcast service data and the second broadcast service data is allocated in a different data unit. The second encoded first broadcast service data and the second broadcast service data are allocated in different data units, respectively. Different robustness are allocated to the first broadcast service data and the second broadcast service data.

A wireless receiver includes a wireless communication component and a controller. The wireless communication component receives from a wireless transmitter a wireless signal that includes content data and encoded data having first error correction information and second error correction information of a different type from that of the first error correction information, for correcting errors in the content data. The controller determines which of the first error correction information and the second error correction information is to be given priority based on the signal quality of the wireless signal.

In one embodiment, a distributed concatenated error correction logic is disposed on separate integrated circuit dies to facilitate efficiency. In one embodiment, an inner error correction code logic of the distributed concatenated error correction logic is disposed on an integrated circuit die of a memory circuit and an outer error correction code logic of the distributed concatenated error correction logic is disposed on an integrated circuit die of a memory controller. In one aspect, it is believed that such an arrangement may be employed to increase the usefulness of memory controllers for later generation memory circuits. Other aspects are described herein.

A digital broadcasting system and a method of processing data are disclosed. A receiving system of the digital broadcasting system may include a signal receiving unit, a demodulating unit, a demultiplexer, and an audio/video decoder. The signal receiving unit receives a broadcast signal including main service data and an RS frame including a plurality of MPH service data packets. The demodulating unit demodulates data of the RS frame. The demultiplexer identifies an MPH service data packet including an IP datagram of mobile service data with reference to an MPH header of each MPH service data packet in the RS frame, and when a stuffing data is inserted in the identified payload of MPH service data packet, removes the stuffing data from the payload and separates an audio and video data from IP datagram of the mobile service data of the payload, and outputs the separated audio and video data.

This application discloses a coding method and a communications device. The coding method includes: determining, by a communications device, a second transport block, where the second transport block includes a first transport block and check information corresponding to the first transport block; determining, by the communications device according to scheduling information of the second transport block, a scheme for performing outer-code coding on the second transport block; determining, by the communications device, a third transport block, where when the scheduling information meets a preset condition, the third transport block is a transport block obtained by performing outer-code coding on the second transport block, or when the scheduling information does not meet a preset condition, the third transport block is specifically the second transport block; and performing, by the communications device, inner-code coding on the third transport block according to a predefined rule.

A transmitting system and a method for processing data are disclosed herein. The transmitting system includes a service multiplexer and at least one transmitter located in a remote position from the service multiplexer. Herein, the service multiplexer generates an RS frame having the size of N (row)187 (column) bytes including at least one type of mobile service data, packetizes the RS frame into a plurality of mobile service data packets, and multiplexes the packetized mobile service data packets with a main service data packet at a predetermined data rate, thereby transmitting the multiplexed data packets. Herein, each mobile service data packet is configured of a TS header and a data region, and the data region is configured of at least one of a payload region and an adaptation field region.

The present disclosure relates to a receiving device, a receiving method, and a program that can reduce power consumption. A Viterbi decoding unit performs Viterbi decoding on a likelihood as a processing target, a byte de-interleaver delays a part of a decoding result of Viterbi decoding, and an RS decoding unit performs RS decoding on the decoding result after delaying by the byte de-interleaver. A likelihood converting unit controls decoding of the likelihood to improve reliability of the decoding result. Then, when all of a predetermined number of decoding results by the RS decoding unit are succeeded or failed, the decode stop determination unit determines to stop subsequent decoding on the likelihood as a processing target. The present technology may be applied to, for example, a receiving device that receives digital terrestrial broadcasting compatible with the ISDB-T standard, or the like.