Publikation: Efficient Approximation of Quantum Channel Capacities
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We propose an iterative method for approximating the capacity of classical-quantum channels with a discrete input alphabet and a finite-dimensional output under additional constraints on the input distribution. Based on duality of convex programming, we derive explicit upper and lower bounds for the capacity. To provide an additive ε-close estimate to the capacity, the presented algorithm requires O((N ν M)M3log(N)1/2 ε -1 ) steps, where N denotes the input alphabet size and M denotes the output dimension. We then generalize the method to the task of approximating the capacity of classical-quantum channels with a bounded continuous input alphabet and a finite-dimensional output. This, using the idea of a universal encoder, allows us to approximate the Holevo capacity for channels with a finite-dimensional quantum mechanical input and output. In particular, we show that the problem of approximating the Holevo capacity can be reduced to a multi-dimensional integration problem. For certain families of quantum channels, we prove that the complexity to derive an additive ε-close solution to the Holevo capacity is subexponential or even polynomial in the problem size. We provide several examples to illustrate the performance of the approximation scheme in practice.
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SUTTER, David, Tobias SUTTER, Peyman MOHAJERIN ESFAHANI, Renato RENNER, 2016. Efficient Approximation of Quantum Channel Capacities. In: IEEE Transactions on Information Theory. IEEE. 2016, 62(1), S. 578-598. ISSN 0018-9448. eISSN 1557-9654. Verfügbar unter: doi: 10.1109/TIT.2015.2503755BibTex
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