Broadcast receiving system and method for processing broadcast signals
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
H04L-027/00
H04H-020/57
H04H-020/22
출원번호
US-0464421
(2014-08-20)
등록번호
US-RE45975
(2016-04-12)
우선권정보
KR-10-2007-0065765 (2007-06-29)
발명자
/ 주소
Cho, Il Soo
Cho, Hyeon Cheol
Park, Jong Sun
Choi, In Hwan
Lee, Hyoung Gon
Song, Won Gyu
Kim, Seung Man
Kim, Jong Moon
Kim, Jin Woo
Kwak, Kook Yeon
Kim, Byoung Gill
출원인 / 주소
LG ELECTRONICS INC.
대리인 / 주소
Lee, Hong, Degerman, Kang & Waimey
인용정보
피인용 횟수 :
0인용 특허 :
5
초록▼
A broadcast receiving system capable of receiving mobile broadcast data and a method for processing broadcast signals are disclosed. The broadcast receiving system includes N number of antenna elements, a demodulator, a transmission parameter detector, and a block decoder. The N number of antenna el
A broadcast receiving system capable of receiving mobile broadcast data and a method for processing broadcast signals are disclosed. The broadcast receiving system includes N number of antenna elements, a demodulator, a transmission parameter detector, and a block decoder. The N number of antenna elements receives each of the broadcast signals. The demodulator demodulates the broadcast signal having greater signal strength among each of the received broadcast signals. The transmission parameter detector detects the transmission parameter. The block decoder symbol-decodes the mobile broadcast service data included in the received broadcast signal in block units, based upon the detected transmission parameter.
대표청구항▼
1. A broadcast receiving system comprising: a tuner for receiving a broadcast signal including a transmission frame, wherein a parade of data groups are received during slots within the transmission frame, the slots being basic time periods for multiplexing of mobile data and main data,wherein the d
1. A broadcast receiving system comprising: a tuner for receiving a broadcast signal including a transmission frame, wherein a parade of data groups are received during slots within the transmission frame, the slots being basic time periods for multiplexing of mobile data and main data,wherein the data groups of the parade are assigned to the transmission frame, a total number of the data groups assigned to the transmission frame being a multiple of five,wherein a plurality of consecutive data groups in the parade are assigned to be spaced apart from one another within the transmission frame,wherein each of the data groups includes the mobile data, a transmission parameter, known data sequences and a plurality of regions including data blocks,wherein a first region of the plurality of regions includes a fourth data block, a fifth data block, a sixth data block and a seventh data block of the data blocks,wherein a second region of the plurality of regions includes a third data block and an eighth data block of the data blocks,wherein a third region of the plurality of regions includes a second data block and a ninth data block of the data blocks,wherein a fourth region of the plurality of regions includes a first data block and a tenth data block of the data blocks,wherein a first known data sequence of the known data sequences is located in the third data block of the data blocks,wherein a second known data sequence of the known data sequences and a third known data sequence of the known data sequences are located in the fourth data block of the data blocks,wherein a fourth known data sequence of the known data sequences is located in the fifth data block of the data blocks,wherein a fifth known data sequence of the known data sequences is located in the sixth data block of the data blocks, andwherein a sixth known data sequence of the known data sequences is located in the seventh data block of the data blocks;a demodulator for demodulating the broadcast signal;a transmission parameter detector for detecting the transmission parameter;a block decoder for symbol-decoding the mobile data included in the received broadcast signal in block units based upon the detected transmission parameter; anda Reed-Solomon (RS) frame decoder for building two-dimensional RS frames by gathering RS frame portions including the symbol-decoded mobile data,wherein a size of at least one of the two-dimensional RS frames is (187+P)×(N+2), wherein P and N are integers. 2. The broadcast receiving system of claim 1, further comprising: a known sequence detector for detecting at least one known data included in the received broadcast signal; anda channel equalizer for channel-equalizing the received mobile data using the detected at least one known data. 3. The broadcast receiving system of claim 1, wherein the RS frame decoder is further for performing cyclic redundancy check (CRC)-decoding and RS-decoding on the symbol-decoded mobile data of the two-dimensional RS frames in order to correct errors. 4. The broadcast receiving system of claim 1, further comprising: a power controller for controlling power based upon the detected transmission parameter in order to receive one of the data groups including requested mobile data. 5. The broadcast receiving system of claim 1, further comprising: a derandomizer for derandomizing the symbol-decoded mobile data. 6. A method for processing broadcast signals, the method comprising: receiving, at a tuner, a broadcast signal including a transmission frame, wherein a parade of data groups are received during slots within the transmission frame, the slots being basic time periods for multiplexing of mobile data and main data,wherein the data groups of the parade are assigned to the transmission frame, a total number of the data groups assigned to the transmission frame being a multiple of five,wherein a plurality of consecutive data groups in the parade are assigned to be spaced apart from one another within the transmission frame,wherein each of the data groups includes the mobile data, a transmission parameter, known data sequences and a plurality of regions including data blocks,wherein a first region of the plurality of regions includes a fourth data block, a fifth data block, a sixth data block and a seventh data block of the data blocks,wherein a second region of the plurality of regions includes a third data block and an eighth data block of the data blocks,wherein a third region of the plurality of regions includes a second data block and a ninth data block of the data blocks,wherein a fourth region of the plurality of regions includes a first data block and a tenth data block of the data blocks,wherein a first known data sequence of the known data sequences is located in the third data block of the data blocks,wherein a second known data sequence of the known data sequences and a third known data sequence of the known data sequences are located in the fourth data block of the data blocks,wherein a fourth known data sequence of the known data sequences is located in the fifth data block of the data blocks,wherein a fifth known data sequence of the known data sequences is located in the sixth data block of the data blocks, andwherein a sixth known data sequence of the known data sequences is located in the seventh data block of the data blocks;demodulating the broadcast signal;detecting the transmission parameter;symbol-decoding the mobile data included in the received broadcast signal in block units based upon the detected transmission parameter; andbuilding two-dimensional RS frames by gathering RS frame portions including the symbol-decoded mobile data,wherein a size of at least one of the two-dimensional RS frames is (187+P)×(N+2), wherein P and N are integers. 7. The method of claim 6, further comprising: detecting at least one known data included in the received broadcast signal; andchannel-equalizing the received mobile data using the detected at least one known data. 8. The method of claim 6, further comprising: performing cyclic redundancy check (CRC)-decoding and Reed-Solomon (RS)-decoding on the symbol-decoded mobile data of the two-dimensional RS frames in order to correct errors. 9. The method of claim 6, further comprising: controlling power based upon the detected transmission parameter in order to receive one of the data groups including requested mobile data. 10. The method of claim 6, further comprising: derandomizing the symbol-decoded mobile data. 11. The broadcast receiving system of claim 1, wherein the transmission parameter includes a version of fast information channel. 12. The method of claim 6, wherein the transmission parameter includes a version of fast information channel.
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이 특허에 인용된 특허 (5)
Dent Paul W. (Stehag SEX), CDMA subtractive demodulation.
Medvedev,Irina; Walton,Jay R.; Ketchum,John W., Power control for partial channel-state information (CSI) multiple-input, multiple-output (MIMO) systems.
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