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Paper detail

Geometric transformations of multidimensional color images based on NASS

We present quantum algorithms to realize geometric transformations (two-point swappings, symmetric flips, local flips, orthogonal rotations, and translations) based on an $n$-qubit normal arbitrary superposition state (NASS). These transformations are implemented using quantum circuits consisting of basic quantum gates, which are constructed with polynomial numbers of single-qubit and two-qubit gates. Complexity analysis shows that the global operators (symmetric flips, local flips, orthogonal rotations) can be implemented with $O(n)$ gates. The proposed geometric transformations are used to facilitate applications of quantum images with low complexity.

preprint2016arXivOpen access
Ping FanRi-gui ZhouNaihuan JingHai-Sheng Li
math.ITInformation Theoryquant-ph
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Ping FanRi-gui ZhouNaihuan JingHai-Sheng Li

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