Minimal-Memory, Noncatastrophic, Polynomial-Depth Quantum Convolutional Encoders

Houshmand, Monireh; Hosseini-Khayat, Saied; Wilde, Mark M.

doi:10.1109/tit.2012.2220520

Cited by 15 publications

(18 citation statements)

References 34 publications

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“…However, we acknowledge the fact that the notion of memory of quantum convolutional code has been rede¯ned recently, in order to make the concept more natural. 23 The degree of Q is de¯ned as…”

Section: Quantum Convolutional Codesmentioning

confidence: 99%

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New optimal quantum convolutional codes

Zhu

Wang

Kai

2015

Int. J. Quantum Inform.

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One of the most challenges to prove the feasibility of quantum computers is to protect the quantum nature of information. Quantum convolutional codes are aimed at protecting a stream of quantum information in a long distance communication, which are the correct generalization to the quantum domain of their classical analogs. In this paper, we construct some classes of quantum convolutional codes by employing classical constacyclic codes. These codes are optimal in the sense that they attain the Singleton bound for pure convolutional stabilizer codes.

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Section: Quantum Convolutional Codesmentioning

confidence: 99%

“…In Ref. 23, the authors have constructed minimalmemory encoders for quantum convolutional codes. They have introduced a new de¯nition of quantum memory for quantum convolutional codes, which is more natural than the previous de¯nitions.…”

Section: Introductionmentioning

confidence: 99%

New optimal quantum convolutional codes

Zhu

Wang

Kai

2015

Int. J. Quantum Inform.

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“…1 with (4) and (5), we construct five (6, 3, l) convolutional codes and four (8,4, l) convolutional codes. Their BER performances are shown in the real line of Fig.…”

Section: Fig 3 Convergence Of Ber Performance For Memory Depthmentioning

confidence: 99%

“…Currently, convolutional LDPC codes [6,7] have become the new hot topic, as they can obtain a good cost performance when implementing the Belief Propagation (BP) algorithm. In addition, the quantum convolutional codes used in quantum communication have also become absorbing quantum error correcting codes [8].…”

Section: Introductionmentioning

confidence: 99%

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The Construction and Viterbi Decoding of New (2k, k, l) Convolutional Codes

Wan-quan¹,

Zhang²

2014

Journal of Information Processing Systems

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Abstract-The free distance of (n, k, l) convolutional codes has some connection with the memory length, which depends on not only l but also on k. To efficiently obtain a large memory length, we have constructed a new class of (2k, k, l) convolutional codes by (2k, k) block codes and (2, 1, l) convolutional codes, and its encoder and generation function are also given in this paper. With the help of some matrix modules, we designed a single structure Viterbi decoder with a parallel capability, obtained a unified and efficient decoding model for (2k, k, l) convolutional codes, and then give a description of the decoding process in detail. By observing the survivor path memory in a matrix viewer, and testing the role of the max module, we implemented a simulation with (2k, k, l) convolutional codes. The results show that many of them are better than conventional (2, 1, l) convolutional codes.

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On the Constructions of Quantum MDS Convolutional Codes

Huang

Zhu

2023

Int J Theor Phys

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Minimal-Memory, Noncatastrophic, Polynomial-Depth Quantum Convolutional Encoders

Cited by 15 publications

References 34 publications

New optimal quantum convolutional codes

New optimal quantum convolutional codes

The Construction and Viterbi Decoding of New (2k, k, l) Convolutional Codes

On the Constructions of Quantum MDS Convolutional Codes

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