Convolutional and Tail-Biting Quantum Error-Correcting Codes

Convolutional and Tail-Biting Quantum Error-Correcting Codes

Rate-(n-2)/n unrestricted and CSS-type quantum convolutional codes with up to 4096 states and minimum distances up to 10 are constructed as stabilizer codes from classical self-orthogonal rate-1/n F 4 -linear and binary linear convolutional codes, respectively. These codes generally have higher rate...

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Veröffentlicht in:IEEE transactions on information theory 2007-03, Vol.53 (3), p.865-880
Hauptverfasser: Forney, G.D., Grassl, M., Guha, S.
Format: Artikel
Sprache:eng
Schlagworte:
Applied sciences
Block codes
Blocking
Codes
Coding, codes
Communication systems
Complexity
Construction
Convolutional codes
CSS-type codes
Decoding
Error correction
Error correction codes
Errors
Exact sciences and technology
Information theory
Information, signal and communications theory
Laboratories
Linear programming
Protection
Quantum computing
quantum convolutional codes (QCCs)
quantum error-correcting codes
Quantum mechanics
quantum tail-biting codes
Quantum theory
Robustness
Signal and communications theory
Telecommunications and information theory
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Zusammenfassung:Rate-(n-2)/n unrestricted and CSS-type quantum convolutional codes with up to 4096 states and minimum distances up to 10 are constructed as stabilizer codes from classical self-orthogonal rate-1/n F 4 -linear and binary linear convolutional codes, respectively. These codes generally have higher rate and less decoding complexity than comparable quantum block codes or previous quantum convolutional codes. Rate-(n-2)/n block stabilizer codes with the same rate and error-correction capability and essentially the same decoding complexity are derived from these convolutional codes via tail-biting
ISSN:0018-9448
1557-9654
DOI:10.1109/TIT.2006.890698