TY - GEN
T1 - QHSL image encryption scheme based on a logistic chaotic system
AU - Yan, Fei
AU - Li, Mao
AU - Li, Nianqiao
AU - Iliyasu, Abdullah M.
N1 - Publisher Copyright:
© 2021 IEEE.
PY - 2022
Y1 - 2022
N2 - On digital computers, the hue, saturation, and lightness (HSL) image model is especially useful in feature detection, image segmentation, and other operations in robot vision, object recognition, etc. On the quantum computing paradigm, such a model was only recently formulated and many new inroads with it are just beginning. Our study proposes a scheme to secure quantum images encoded using the quantum HSL (QHSL) image model. The proposed QHSL encryption scheme (or simply QHES) utilises logistic mapping to induce the chaotic system at the heart of the QHES strategy. The scheme consists of a quantum logistic chaos unit composed of quantum arithmetic modules to generate chaotic sequences. This is followed by a quantum logistic key generation that is subsequently used to encrypt the HSL components of QHSL images. The proposed scheme exploits quantum parallelism to execute its encryption procedure which leads to significant reduction in computational resources. Results of simulation-based experiments reported suggest potentials of the proposed QHES as an efficient cryptosystem on quantum computers.
AB - On digital computers, the hue, saturation, and lightness (HSL) image model is especially useful in feature detection, image segmentation, and other operations in robot vision, object recognition, etc. On the quantum computing paradigm, such a model was only recently formulated and many new inroads with it are just beginning. Our study proposes a scheme to secure quantum images encoded using the quantum HSL (QHSL) image model. The proposed QHSL encryption scheme (or simply QHES) utilises logistic mapping to induce the chaotic system at the heart of the QHES strategy. The scheme consists of a quantum logistic chaos unit composed of quantum arithmetic modules to generate chaotic sequences. This is followed by a quantum logistic key generation that is subsequently used to encrypt the HSL components of QHSL images. The proposed scheme exploits quantum parallelism to execute its encryption procedure which leads to significant reduction in computational resources. Results of simulation-based experiments reported suggest potentials of the proposed QHES as an efficient cryptosystem on quantum computers.
KW - QHSL image
KW - Quantum computing
KW - logistic chaotic system
KW - multi-key generation
KW - quantum image encryption
UR - http://www.scopus.com/inward/record.url?scp=85132435034&partnerID=8YFLogxK
U2 - 10.1109/HPCC-DSS-SmartCity-DependSys53884.2021.00112
DO - 10.1109/HPCC-DSS-SmartCity-DependSys53884.2021.00112
M3 - Conference contribution
AN - SCOPUS:85132435034
T3 - 2021 IEEE 23rd International Conference on High Performance Computing and Communications, 7th International Conference on Data Science and Systems, 19th International Conference on Smart City and 7th International Conference on Dependability in Sensor, Cloud and Big Data Systems and Applications, HPCC-DSS-SmartCity-DependSys 2021
SP - 677
EP - 684
BT - 2021 IEEE 23rd International Conference on High Performance Computing and Communications, 7th International Conference on Data Science and Systems, 19th International Conference on Smart City and 7th International Conference on Dependability in Sensor, Cloud and Big Data Systems and Applications, HPCC-DSS-SmartCity-DependSys 2021
PB - Institute of Electrical and Electronics Engineers Inc.
T2 - 23rd IEEE International Conference on High Performance Computing and Communications, 7th IEEE International Conference on Data Science and Systems, 19th IEEE International Conference on Smart City and 7th IEEE International Conference on Dependability in Sensor, Cloud and Big Data Systems and Applications, HPCC-DSS-SmartCity-DependSys 2021
Y2 - 20 December 2021 through 22 December 2021
ER -