Making Good Codes for Classical-Quantum Channel Coding via Quantum Hypothesis Testing

Ogawa T.; Nagaoka H.

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Making Good Codes for Classical-Quantum Channel Coding via Quantum Hypothesis Testing

机译：通过量子假设测试为经典量子信道编码制作好的代码

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In this correspondence, we give an alternative proof of the direct part of the classical-quantum channel coding theorem (the Holevo-Schumacher-Westmoreland (HSW) theorem), using ideas of quantum hypothesis testing. In order to show the existence of good codes, we invoke a limit theorem, relevant to the quantum Stein''s lemma, in quantum hypothesis testing as the law of large numbers used in the classical case. We also apply a greedy construction of good codes using a packing procedure of noncommutative operators. Consequently we derive an upper bound on the coding error probability, which is used to give an alternative proof of the HSW theorem. This approach elucidates how the Holevo information applies to the classical-quantum channel coding problems

机译：在这种对应关系中，我们使用量子假设检验的思想，给出了经典量子信道编码定理（Holevo-Schumacher-Westmoreland（HSW）定理）的直接部分的替代证明。为了显示良好代码的存在，我们在量子假设检验中调用了一个与量子斯坦因引理相关的极限定理，作为经典案例中使用的大数定律。我们还使用非交换算子的打包过程对好的代码进行贪婪的构造。因此，我们得出了编码错误概率的上限，该上限用于提供HSW定理的替代证明。这种方法阐明了Holevo信息如何应用于经典量子信道编码问题

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《IEEE Transactions on Information Theory》 |2007年第6期|p.2261-2266|共6页
作者
Ogawa T.; Nagaoka H.;
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正文语种 eng
中图分类无线电电子学、电信技术;
关键词
channel coding; error statistics; greedy algorithms; quantum communication; HSW theorem; Holevo information; Stein''s lemma; error probability; greedy construction; limit theorem; quantum channel coding theorem; quantum hypothesis testing; Classical capacity of quan;

机译：信道编码;错误统计;贪婪算法;量子通信;HSW定理;Holevo信息;Stein引理;错误概率;贪婪构造;极限定理;量子信道编码定理;量子假设检验;量子的经典能力;

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Making Good Codes for Classical-Quantum Channel Coding via Quantum Hypothesis Testing

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