基于对数极坐标位平面的新型增强量子图像表示

Quantum Inf. Comput. Pub Date : 2022-01-01 DOI:10.26421/qic22.1-2-2

Xiao Chen, Zhihao Liu, Hanwu Chen, Liang Wang

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引用次数: 1

摘要

量子图像表示在量子图像处理中有着重要的影响。本文提出了对数极量子图像(BRLQI)的位平面表示，它利用$(n+4)$或$(n+6)$量子比特来存储和处理$2^n$像素的灰度或RGB彩色图像。与量子对数极图像(QUALPI)相比，BRLQI的存储容量提高了16倍。此外，还提出了几种基于BRLQI的量子运算，包括颜色信息互补运算、位面反转运算、位面平移运算和位面间条件交换运算。结合以上操作，我们设计了一种适合BRLQI模型的图像置乱电路。此外，对加扰电路的比较结果表明，基于BRLQI的加扰运算比基于QUALPI的加扰运算具有更低的量子成本。仿真实验表明，该置乱算法是有效的。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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A novel enhanced quantum image representation based on bit-planes for log-polar coordinates

Quantum image representation has a significant impact in quantum image processing. In this paper, a bit-plane representation for log-polar quantum images (BRLQI) is proposed, which utilizes $(n+4)$ or $(n+6)$ qubits to store and process a grayscale or RGB color image of $2^n$ pixels. Compared to a quantum log-polar image (QUALPI), the storage capacity of BRLQI improves 16 times. Moreover, several quantum operations based on BRLQI are proposed, including color information complement operation, bit-planes reversing operation, bit-planes translation operation and conditional exchange operations between bit-planes. Combining the above operations, we designed an image scrambling circuit suitable for the BRLQI model. Furthermore, comparison results of the scrambling circuits indicate that those operations based on BRLQI have a lower quantum cost than QUALPI. In addition, simulation experiments illustrate that the proposed scrambling algorithm is effective and efficient.

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Quantum Inf. Comput.

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