Quantum image processing

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  1. Quantum image processing is a subcategory that concentrates on converting the traditional image processing algorithms for quantum computing environments.[1]
  2. This chapter also focusses on the Quantum image processing algorithms like filtering, edge detection, and scrambling.[1]
  3. This book provides a comprehensive introduction to quantum image processing, which focuses on extending conventional image processing tasks to the quantum computing frameworks.[2]
  4. The demand for faster and more efficient means of storing images would highly benefit systems like this and are the reasons quantum image processing is in demand.[3]
  5. In this work, a quantum image processing algorithm is developed using the edge extraction method together with the Kirsch operator.[4]
  6. In quantum image processing, the complexity depends on the number of elementary gates.[4]
  7. Then, we analyze the storage and computing performances of quantum Boolean image processing (QuBoIP), and conclude that QuBoIP has almost no significance for development of quantum image processing.[5]
  8. Although quantum measurement is the open issue of quantum image processing, quantum image processing deserves further research and are significant.[5]
  9. In conclusion, we believe that this comment is helpful for the developing of quantum image processing by clarifying these confusing questions proposed by Mario Mastriani.[5]
  10. This paper presents a number of problems concerning the practical (real) implementation of the techniques known as quantum image processing.[6]
  11. Quantum image processing (QIP) is an emerging sub-discipline that is focused on extending conventional image processing tasks and operations to the quantum computing framework.[7]
  12. It provides a comprehensive look into quantum image algorithms to establish frameworks of quantum image processing.[8]
  13. The last step of the proposed implementation of photonic-FRQI quantum image processing entails, as with other quantum information processing procedures, recovering the final state of the image.[9]
  14. However, for the FRQI quantum image processing, the target is to determine the new state (after numerous modifications) of the photons used to encode the content of the original image.[9]
  15. These multiple control-conditions have so far proven to be the main obstacle mitigating meaningful FRQI quantum image processing on photonic quantum computers.[9]
  16. The first device needed in the photonic quantum image processing architecture is the photon source.[9]

소스

  1. 1.0 1.1 Quantum Image Processing and Its Applications
  2. Quantum Image Processing
  3. A Review on Quantum Image Processing
  4. 4.0 4.1 Quantum image processing algorithm using edge extraction based on Kirsch operator
  5. 5.0 5.1 5.2 A comment on "Quantum image processing?"
  6. Quantum image processing?
  7. Recent advances and new insights into quantum image processing
  8. Examining Quantum Algorithms for Quantum Image Processing by HaiSheng Li
  9. 9.0 9.1 9.2 9.3 Quantum Computation-Based Image Representation, Processing Operations and Their Applications

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  • [{'LOWER': 'quantum'}, {'LOWER': 'image'}, {'LEMMA': 'processing'}]
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