DocumentCode
2444203
Title
Design of rotated QAM mapper/demapper for the DVB-T2 standard
Author
Li, Meng ; Nour, C.A. ; Jégo, Christophe ; Douillard, Catherine
Author_Institution
Electron. Eng. Dept., Univ. Europeenne de Bretagne, Brest, France
fYear
2009
fDate
7-9 Oct. 2009
Abstract
Signal space diversity (SSD) has been lately adopted into the second generation of the terrestrial digital video broadcasting standard DVB-T2. While spectrally efficient, SSD improves the performance of QAM constellations over fading channels thanks to an increased diversity. In this paper, flexible mapper and demapper architectures for DVB-T2 standard are detailed. A detection based on the decomposition of the constellation into two-dimensional sub-regions in signal space associated to an algorithmic simplification constitute the main novelty of this work. They enable to strongly decrease the complexity of the demapper. The design and the FPGA prototyping of the resultant architecture are then described. Low architecture complexity and measured performance demonstrate the efficiency of the detection method.
Keywords
digital video broadcasting; diversity reception; fading channels; field programmable gate arrays; quadrature amplitude modulation; signal detection; television standards; DVB-T2 standard; FPGA prototyping; fading channel; rotated QAM demapper; rotated QAM mapper; signal detection; signal space diversity; terrestrial digital video broadcasting standard; Constellation diagram; Digital video broadcasting; Fading; Field programmable gate arrays; Interleaved codes; Maximum likelihood detection; Modulation coding; Prototypes; Quadrature amplitude modulation; Telecommunication standards; DVB-T2; FPGA design and prototyping; QAM; demapper architectures; erasure channel; fading channel;
fLanguage
English
Publisher
ieee
Conference_Titel
Signal Processing Systems, 2009. SiPS 2009. IEEE Workshop on
Conference_Location
Tampere
ISSN
1520-6130
Print_ISBN
978-1-4244-4335-2
Electronic_ISBN
1520-6130
Type
conf
DOI
10.1109/SIPS.2009.5336265
Filename
5336265
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