Quantum Face Recognition with Multi-Gate Quantum Convolutional Neural Network

Zhu, Yijie and Bouridane, Ahmed and Celebi, M. Emre and Konar, Debanjan and Angelov, Plamen and Ni, Qiang and Jiang, Richard (2024) Quantum Face Recognition with Multi-Gate Quantum Convolutional Neural Network. IEEE Transactions on Artificial Intelligence. ISSN 2691-4581

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Abstract

In the last decade, quantum computing has showcased its unique mechanism across diverse fields, highlighting significant potential for data-driven applications requiring substantial computational resources. Within this landscape, quantum machine learning emerges as a promising frontier, poised to harness the unique advantages of quantum computing for machine learning tasks. Nonetheless, the current generation of quantum hardware, typified by noisy intermediatescale quantum (NISQ) devices, grapples with severe resource constraints, particularly in terms of qubit availability. While quantum computing offers tantalizing capabilities such as superposition and entanglement, which can be strategically leveraged to optimize the performance of quantum neural networks, the challenge remains in mitigating the resource limitations while upholding high recognition accuracy. To address this imperative, we introduce a pioneering face recognition method christened the Multi-Gate Quantum Convolutional Neural Network (MG-QCNN). This innovation is engineered to surmount the resource bottleneck endemic to NISQ devices while preserving exceptional recognition accuracy. Our empirical investigations conducted on benchmark datasets, including the Yale face dataset and the ORL face database, illuminate the remarkable potential of this approach. Specifically, our proposed variational quantum circuit architecture consistently achieves an impressive average accuracy of 96%, which is better than the 95% of the classic CNN. Our model underscores the efficacy of quantum convolution operations in the extraction of feature maps, exhibiting a transformative stride toward unlocking the full potential of quantum-enhanced face recognition, and compared with other quantum models, our method has more advantages in accuracy and efficiency.

Item Type:
Journal Article
Journal or Publication Title:
IEEE Transactions on Artificial Intelligence
ID Code:
221678
Deposited By:
Deposited On:
12 Jul 2024 14:50
Refereed?:
Yes
Published?:
Published
Last Modified:
23 Nov 2024 01:46