Abstract
Inspired by the success of classical turbo codes, quantum turbo codes (QTCs) have also been conceived for near-hashing-bound transmission of quantum information over memoryless quantum channels. However, in real physical situations, the memoryless channel assumption may not be well justified, since the channel often exhibits memory of previous error events. Here, we investigate the performance of QTCs over depolarizing channels exhibiting memory and we show that they suffer from a performance degradation at low depolarizing probability values. In order to circumvent the performance degradation issue, we conceive a new coding scheme termed quantum turbo coding scheme exploiting error-correlation (QTC-EEC) that is capable of utilizing the error-correlation while performing the iterative decoding at the receiver. The proposed QTC-EEC can achieve convergence threshold at a higher depolarizing probability for channels with a higher value of correlation parameter and achieve performance near to the capacity. Finally, we propose a joint decoding and estimation scheme for our QTC-EEC relying on the correlation estimation (QTC-EEC-E) designed for more realistic quantum systems with unknown correlation parameter. Simulation results reveal that the proposed QTC-EEC-E can achieve the same performance as that of the ideal system of known correlation parameter and hence demonstrate the accurate estimation of the proposed QTC-EEC-E.
Highlights
Quantum computing and communication exploit the unique properties of quantum mechanics, such as the superposition of states and entanglement [1] to provide inherently fast and secure data processing
In contrast to the concatenated coding schemes of [35] and [36] that are only suitable for a certain range of errorcorrelations, our proposed coding scheme is capable of achieving performance gains over the existing quantum turbo codes (QTCs) for the entire range of error-correlations and does not suffer from any performance degradation for transmission over memoryless channels
2) We propose a joint decoding and estimation technique for our quantum turbo coding scheme exploiting error-correlation (QTC-EEC) relying on correlation estimation (QTC-EEC-E)
Summary
Quantum computing and communication exploit the unique properties of quantum mechanics, such as the superposition of states and entanglement [1] to provide inherently fast and secure data processing. In contrast to the concatenated coding schemes of [35] and [36] that are only suitable for a certain range of errorcorrelations, our proposed coding scheme is capable of achieving performance gains over the existing QTCs for the entire range of error-correlations and does not suffer from any performance degradation for transmission over memoryless channels. Our novel contributions can be summarized as follows: 1) We conceive a quantum turbo coding scheme exploiting the error-correlation (QTC-EEC), when performing syndrome-based iterative decoding. This is realized by modifying the MAP algorithm employed by the inner decoder to capitalize on the statistics of the errorcorrelation.
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