International audienceAbstractThe transition from analog telecommunication equipment and terminals to digital systems and, more recently, the fast development of wireless communications were made possible by three factors: 1) key advances in integrated circuit technology, 2) large improvements in methodologies and tools for the design of highly complex digital circuits, and 3) progress in information theory, in particular, the belief propagation algorithm that allows error control codes operating close to the Shannon limit. In this chapter, an overview of architecture of turbo and LDPC codes is presented. The standard implementation (i.e., low complexity) of those codes is first presented. Then architecture for high-speed, low-power, and hi...
This thesis presents the newly discovered technique to decode a Turbo code. This technique is known ...
The Low-Density Parity-Check codes are among the most powerful forward error correcting codes, since...
This paper proposes a framework for a low-power design of flexible multi-standard channel decoders w...
International audienceAbstractThe transition from analog telecommunication equipment and terminals t...
From the methodological point of view, the design of efficient channel decoders for wireless applica...
215 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 2003.Decoder architectures for LDP...
The introduction of Turbo-codes in the early 90's and, more generally the iterative principle, has d...
The proposed solution for a LDPC decoder according the IEEE 802.11n standard is a multicode and mult...
This PhD dissertation proposes the ASIC design of a flexible Multi-Standard channel decoder for next...
Since the invention of turbo codes in 1993 and the rediscovery of Gallager’s LDPC codes in 1999, Sha...
Iterative decoding techniques for modern capacity-approaching codes are currently dominating the cho...
International audienceIn order to address the large variety of channel coding options specified in e...
Iterative coding systems are currently being proposed and accepted for many future systems as next g...
This thesis analyzes the design of low complexity capacity approaching codes suitable for data trans...
Conference paperWith the current trend of the increase in the data-rate requirements of wireless sy...
This thesis presents the newly discovered technique to decode a Turbo code. This technique is known ...
The Low-Density Parity-Check codes are among the most powerful forward error correcting codes, since...
This paper proposes a framework for a low-power design of flexible multi-standard channel decoders w...
International audienceAbstractThe transition from analog telecommunication equipment and terminals t...
From the methodological point of view, the design of efficient channel decoders for wireless applica...
215 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 2003.Decoder architectures for LDP...
The introduction of Turbo-codes in the early 90's and, more generally the iterative principle, has d...
The proposed solution for a LDPC decoder according the IEEE 802.11n standard is a multicode and mult...
This PhD dissertation proposes the ASIC design of a flexible Multi-Standard channel decoder for next...
Since the invention of turbo codes in 1993 and the rediscovery of Gallager’s LDPC codes in 1999, Sha...
Iterative decoding techniques for modern capacity-approaching codes are currently dominating the cho...
International audienceIn order to address the large variety of channel coding options specified in e...
Iterative coding systems are currently being proposed and accepted for many future systems as next g...
This thesis analyzes the design of low complexity capacity approaching codes suitable for data trans...
Conference paperWith the current trend of the increase in the data-rate requirements of wireless sy...
This thesis presents the newly discovered technique to decode a Turbo code. This technique is known ...
The Low-Density Parity-Check codes are among the most powerful forward error correcting codes, since...
This paper proposes a framework for a low-power design of flexible multi-standard channel decoders w...