Bit-Interleaved Coded Modulation.
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| Název: | Bit-Interleaved Coded Modulation. |
|---|---|
| Autoři: | i Fàbregas, Albert Guillén, Martinez, Alfonso, Caire, Giuseppe |
| Zdroj: | Foundations & Trends in Communications & Information Theory; 2008, Vol. 5 Issue 1/2, p1-153, 153p, 19 Diagrams, 2 Charts, 35 Graphs |
| Témata: | COMMUNICATIONS research, INFORMATION theory, COMMUNICATION models, CATHODE ray oscillographs, WIRELESS communications |
| Abstrakt: | The principle of coding in the signal space follows directly from Shannon's analysis of waveform Gaussian channels subject to an input constraint. The early design of communication systems focused separately on modulation, namely signal design and detection, and error correcting codes, which deal with errors introduced at the demodulator of the underlying waveform channel. The correct perspective of signal-space coding, although never out of sight of information theorists, was brought back into the focus of coding theorists and system designers by Imai's and Ungerböck's pioneering works on coded modulation. More recently, powerful families of binary codes with a good tradeoff between performance and decoding complexity have been (re-)discovered. Bit-Interleaved Coded Modulation (BICM) is a pragmatic approach combining the best out of both worlds: it takes advantage of the signal-space coding perspective, whilst allowing for the use of powerful families of binary codes with virtually any modulation format. BICM avoids the need for the complicated and somewhat less flexible design typical of coded modulation. As a matter of fact, most of today's systems that achieve high spectral efficiency such as DSL, Wireless LANs, WiMax and evolutions thereof, as well as systems based on low spectral efficiency orthogonal modulation, feature BICM, making BICM the de-facto general coding technique for waveform channels. The theoretical characterization of BICM is at the basis of efficient coding design techniques and also of improved BICM decoders, e.g., those based on the belief propagation iterative algorithm and approximations thereof. In this text, we review the theoretical foundations of BICM under the unified framework of error exponents for mismatched decoding. This framework allows an accurate analysis without any particular assumptions on the length of the interleaver or independence between the multiple bits in a symbol. We further consider the sensitivity of the BICM capacity with respect to the signal-to-noise ratio (SNR), and obtain a wideband regime (or low-SNR regime) characterization. We review efficient tools for the error probability analysis of BICM that go beyond the standard approach of considering infinite interleaving and take into consideration the dependency of the coded bit observations introduced by the modulation. We also present bounds that improve upon the union bound in the region beyond the cutoff rate, and are essential to characterize the performance of modern random-like codes used in concatenation with BICM. Finally, we turn our attention to BICM with iterative decoding, we review extrinsic information transfer charts, the area theorem and code design via curve fitting. We conclude with an overview of some applications of BICM beyond the classical coherent Gaussian channel. [ABSTRACT FROM AUTHOR] |
| Copyright of Foundations & Trends in Communications & Information Theory is the property of Now Publishers and its content may not be copied or emailed to multiple sites without the copyright holder's express written permission. Additionally, content may not be used with any artificial intelligence tools or machine learning technologies. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.) | |
| Databáze: | Complementary Index |
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| Items | – Name: Title Label: Title Group: Ti Data: Bit-Interleaved Coded Modulation. – Name: Author Label: Authors Group: Au Data: <searchLink fieldCode="AR" term="%22i+Fàbregas%2C+Albert+Guillén%22">i Fàbregas, Albert Guillén</searchLink><br /><searchLink fieldCode="AR" term="%22Martinez%2C+Alfonso%22">Martinez, Alfonso</searchLink><br /><searchLink fieldCode="AR" term="%22Caire%2C+Giuseppe%22">Caire, Giuseppe</searchLink> – Name: TitleSource Label: Source Group: Src Data: Foundations & Trends in Communications & Information Theory; 2008, Vol. 5 Issue 1/2, p1-153, 153p, 19 Diagrams, 2 Charts, 35 Graphs – Name: Subject Label: Subject Terms Group: Su Data: <searchLink fieldCode="DE" term="%22COMMUNICATIONS+research%22">COMMUNICATIONS research</searchLink><br /><searchLink fieldCode="DE" term="%22INFORMATION+theory%22">INFORMATION theory</searchLink><br /><searchLink fieldCode="DE" term="%22COMMUNICATION+models%22">COMMUNICATION models</searchLink><br /><searchLink fieldCode="DE" term="%22CATHODE+ray+oscillographs%22">CATHODE ray oscillographs</searchLink><br /><searchLink fieldCode="DE" term="%22WIRELESS+communications%22">WIRELESS communications</searchLink> – Name: Abstract Label: Abstract Group: Ab Data: The principle of coding in the signal space follows directly from Shannon's analysis of waveform Gaussian channels subject to an input constraint. The early design of communication systems focused separately on modulation, namely signal design and detection, and error correcting codes, which deal with errors introduced at the demodulator of the underlying waveform channel. The correct perspective of signal-space coding, although never out of sight of information theorists, was brought back into the focus of coding theorists and system designers by Imai's and Ungerböck's pioneering works on coded modulation. More recently, powerful families of binary codes with a good tradeoff between performance and decoding complexity have been (re-)discovered. Bit-Interleaved Coded Modulation (BICM) is a pragmatic approach combining the best out of both worlds: it takes advantage of the signal-space coding perspective, whilst allowing for the use of powerful families of binary codes with virtually any modulation format. BICM avoids the need for the complicated and somewhat less flexible design typical of coded modulation. As a matter of fact, most of today's systems that achieve high spectral efficiency such as DSL, Wireless LANs, WiMax and evolutions thereof, as well as systems based on low spectral efficiency orthogonal modulation, feature BICM, making BICM the de-facto general coding technique for waveform channels. The theoretical characterization of BICM is at the basis of efficient coding design techniques and also of improved BICM decoders, e.g., those based on the belief propagation iterative algorithm and approximations thereof. In this text, we review the theoretical foundations of BICM under the unified framework of error exponents for mismatched decoding. This framework allows an accurate analysis without any particular assumptions on the length of the interleaver or independence between the multiple bits in a symbol. We further consider the sensitivity of the BICM capacity with respect to the signal-to-noise ratio (SNR), and obtain a wideband regime (or low-SNR regime) characterization. We review efficient tools for the error probability analysis of BICM that go beyond the standard approach of considering infinite interleaving and take into consideration the dependency of the coded bit observations introduced by the modulation. We also present bounds that improve upon the union bound in the region beyond the cutoff rate, and are essential to characterize the performance of modern random-like codes used in concatenation with BICM. Finally, we turn our attention to BICM with iterative decoding, we review extrinsic information transfer charts, the area theorem and code design via curve fitting. We conclude with an overview of some applications of BICM beyond the classical coherent Gaussian channel. [ABSTRACT FROM AUTHOR] – Name: Abstract Label: Group: Ab Data: <i>Copyright of Foundations & Trends in Communications & Information Theory is the property of Now Publishers and its content may not be copied or emailed to multiple sites without the copyright holder's express written permission. Additionally, content may not be used with any artificial intelligence tools or machine learning technologies. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract.</i> (Copyright applies to all Abstracts.) |
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| RecordInfo | BibRecord: BibEntity: Identifiers: – Type: doi Value: 10.1561/0100000019 Languages: – Code: eng Text: English PhysicalDescription: Pagination: PageCount: 153 StartPage: 1 Subjects: – SubjectFull: COMMUNICATIONS research Type: general – SubjectFull: INFORMATION theory Type: general – SubjectFull: COMMUNICATION models Type: general – SubjectFull: CATHODE ray oscillographs Type: general – SubjectFull: WIRELESS communications Type: general Titles: – TitleFull: Bit-Interleaved Coded Modulation. Type: main BibRelationships: HasContributorRelationships: – PersonEntity: Name: NameFull: i Fàbregas, Albert Guillén – PersonEntity: Name: NameFull: Martinez, Alfonso – PersonEntity: Name: NameFull: Caire, Giuseppe IsPartOfRelationships: – BibEntity: Dates: – D: 01 M: 01 Text: 2008 Type: published Y: 2008 Identifiers: – Type: issn-print Value: 15672328 Numbering: – Type: volume Value: 5 – Type: issue Value: 1/2 Titles: – TitleFull: Foundations & Trends in Communications & Information Theory Type: main |
| ResultId | 1 |