Quantum image processing
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말뭉치
- Quantum image processing is a subcategory that concentrates on converting the traditional image processing algorithms for quantum computing environments.[1]
- This chapter also focusses on the Quantum image processing algorithms like filtering, edge detection, and scrambling.[1]
- This book provides a comprehensive introduction to quantum image processing, which focuses on extending conventional image processing tasks to the quantum computing frameworks.[2]
- 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]
- In this work, a quantum image processing algorithm is developed using the edge extraction method together with the Kirsch operator.[4]
- In quantum image processing, the complexity depends on the number of elementary gates.[4]
- 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]
- Although quantum measurement is the open issue of quantum image processing, quantum image processing deserves further research and are significant.[5]
- 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]
- This paper presents a number of problems concerning the practical (real) implementation of the techniques known as quantum image processing.[6]
- 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]
- It provides a comprehensive look into quantum image algorithms to establish frameworks of quantum image processing.[8]
- 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]
- 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]
- These multiple control-conditions have so far proven to be the main obstacle mitigating meaningful FRQI quantum image processing on photonic quantum computers.[9]
- The first device needed in the photonic quantum image processing architecture is the photon source.[9]
소스
- ↑ 1.0 1.1 Quantum Image Processing and Its Applications
- ↑ Quantum Image Processing
- ↑ A Review on Quantum Image Processing
- ↑ 4.0 4.1 Quantum image processing algorithm using edge extraction based on Kirsch operator
- ↑ 5.0 5.1 5.2 A comment on "Quantum image processing?"
- ↑ Quantum image processing?
- ↑ Recent advances and new insights into quantum image processing
- ↑ Examining Quantum Algorithms for Quantum Image Processing by HaiSheng Li
- ↑ 9.0 9.1 9.2 9.3 Quantum Computation-Based Image Representation, Processing Operations and Their Applications
메타데이터
위키데이터
- ID : Q30693577
Spacy 패턴 목록
- [{'LOWER': 'quantum'}, {'LOWER': 'image'}, {'LEMMA': 'processing'}]