A Practical Quantum Public-Key Encryption Model
| Title | A Practical Quantum Public-Key Encryption Model |
| Publication Type | Conference Paper |
| Year of Publication | 2017 |
| Authors | Wang, Y., She, K. |
| Conference Name | 2017 3rd International Conference on Information Management (ICIM) |
| Keywords | black box encryption, blackbox client-side, composability, computational indistinguishability, Computational modeling, decryption process, Encryption, Metrics, pubcrawl, Public key, public key cryptography, quantum computing, quantum cryptography, quantum information security, Quantum mechanics, quantum public key encryption model, quantum public-key encryption model, quantum trapdoor one-way function, resilience, Resiliency, secret keys |
| Abstract | In this paper, a practical quantum public-key encryption model is proposed by studying the recent quantum public-key encryption. This proposed model makes explicit stipulations on the generation, distribution, authentication, and usage of the secret keys, thus forms a black-box operation. Meanwhile, this proposed model encapsulates the process of encryption and decryption for the users, and forms a blackbox client-side. In our models, each module is independent and can be replaced arbitrarily without affecting the proposed model. Therefore, this model has a good guiding significance for the design and development of the quantum public key encryption schemes. |
| URL | http://ieeexplore.ieee.org/document/7950410/ |
| DOI | 10.1109/INFOMAN.2017.7950410 |
| Citation Key | wang_practical_2017 |
- public key cryptography
- secret keys
- Resiliency
- resilience
- quantum trapdoor one-way function
- quantum public-key encryption model
- quantum public key encryption model
- Quantum mechanics
- quantum information security
- quantum cryptography
- quantum computing
- black box encryption
- Public key
- pubcrawl
- Metrics
- encryption
- decryption process
- Computational modeling
- computational indistinguishability
- composability
- blackbox client-side