Digital television transmitting system and receiving system and method of processing broadcast data
First Claim
1. A digital television (DTV) transmitting system for processing broadcast data, the DTV transmitting system comprising:
- a randomizer randomizing enhanced data;
a Reed-Solomon (RS) frame encoder generating an RS frame by RS encoding an RS frame payload with an RS code of (187+P,
187) and Cyclic Redundancy Check (CRC)-encoding the RS-encoded RS frame payload, wherein the RS frame comprises (187×
N) bytes including the randomized enhanced data, P bytes of RS parity data added at a bottom of each column of the (187×
N) bytes and 2 bytes of CRC data added at a right end of each row of the ((187+P)×
N) bytes, wherein P and N are greater than 1;
a block processor encoding the data in the RS frame at a coding rate of 1/N1, wherein N1 is an integer greater than 1;
a group formatting unit mapping a portion of the data encoded at the coding rate of 1/N1 into a data group, wherein the group formatting unit adds known data sequences, main data place holders, moving picture experts group (MPEG) header place holders, and RS parity data place holders to the data group, and wherein at least two of the known data sequences are spaced 16 segments apart;
a deinterleaver deinterleaving data of the data group;
a packet formatter removing the main data place holders and the RS parity data place holders in the deinterleaved data group and replacing the MPEG header place holders in the deinterleaved data group with MPEG headers having a packet identifier, in order to output enhanced data packets; and
a trellis encoding unit trellis encoding data of the enhanced data packets, the trellis encoding unit including at least one memory initialized at each start of the known data sequences.
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Accused Products
Abstract
A DTV transmitting system includes a frame encoder, a randomizer, a block processor, a group formatter, a deinterleaver, and a packet formatter. The frame encoder builds an enhanced data frame and adds parity data into the data frame. The frame encoder further divides the data frame into first and second sub-frames including first and second portions of the parity data, respectively, and permutes a plurality of the first sub-frames and a plurality of the second sub-frames, respectively. The randomizer randomizes enhanced data in the permuted sub-frames, and the block processor codes the randomized data at a rate of 1/N1. The group formatter forms a group of enhanced data having one or more data regions and inserts the 1/N1 coded data into at least one of the data regions. The deinterleaver deinterleaves the group of enhanced data, and the packet formatter formats the deinterleaved data into enhanced data packets.
390 Citations
8 Claims
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1. A digital television (DTV) transmitting system for processing broadcast data, the DTV transmitting system comprising:
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a randomizer randomizing enhanced data; a Reed-Solomon (RS) frame encoder generating an RS frame by RS encoding an RS frame payload with an RS code of (187+P,
187) and Cyclic Redundancy Check (CRC)-encoding the RS-encoded RS frame payload, wherein the RS frame comprises (187×
N) bytes including the randomized enhanced data, P bytes of RS parity data added at a bottom of each column of the (187×
N) bytes and 2 bytes of CRC data added at a right end of each row of the ((187+P)×
N) bytes, wherein P and N are greater than 1;a block processor encoding the data in the RS frame at a coding rate of 1/N1, wherein N1 is an integer greater than 1; a group formatting unit mapping a portion of the data encoded at the coding rate of 1/N1 into a data group, wherein the group formatting unit adds known data sequences, main data place holders, moving picture experts group (MPEG) header place holders, and RS parity data place holders to the data group, and wherein at least two of the known data sequences are spaced 16 segments apart; a deinterleaver deinterleaving data of the data group; a packet formatter removing the main data place holders and the RS parity data place holders in the deinterleaved data group and replacing the MPEG header place holders in the deinterleaved data group with MPEG headers having a packet identifier, in order to output enhanced data packets; and a trellis encoding unit trellis encoding data of the enhanced data packets, the trellis encoding unit including at least one memory initialized at each start of the known data sequences. - View Dependent Claims (2, 3, 4)
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5. A method of processing broadcast data in a digital television (DTV) transmitting system, the method comprising:
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randomizing, by a randomizer, enhanced data; generating, by a Reed-Solomon (RS) frame encoder, an RS frame by RS encoding an RS frame payload column with an RS code of (187+P,
187) and Cyclic Redundancy Check (CRC)-encoding the RS-encoded RS frame payload, wherein the RS frame comprises (187×
N) bytes including the randomized enhanced data, P bytes of RS parity data added at a bottom of each column of the (187×
N) bytes and 2 bytes of CRC data added at a right end of each row of the ((187+P)×
N) bytes, wherein P and N are greater than 1;encoding the data in the RS frame at a coding rate of 1/N1, wherein N1 is an integer greater than 1; mapping a portion of the data encoded at the coding rate of 1/N1 into a data group, wherein the data group further includes known data sequences, main data place holders, moving picture experts group (MPEG) header place holders, and RS parity data place holders, and wherein at least two of the known data sequences are spaced 16 segments apart; deinterleaving data of the data group; removing, by a packet formatter, the main data place holders and the RS parity data place holders in the deinterleaved data group and replacing the MPEG header place holders in the deinterleaved data group with MPEG headers having a packet identifier, in order to output enhanced data packets; and trellis encoding, by a trellis encoding unit, data of the enhanced data packets, wherein at least one memory included in the trellis encoding unit is initialized at each start of the known data sequences. - View Dependent Claims (6, 7, 8)
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Specification