Enhanced image classification via hybridizing quantum dynamics with classical neural networks
Enhanced image classification via hybridizing quantum dynamics with classical neural networks
The integration of quantum computing and machine learning has emerged as a promising frontier in computational science. We present a hybrid protocol which combines classical neural networks with non-equilibrium dynamics of a quantum many-body system for image classification. This architecture leverages classical neural networks to efficiently process high-dimensional data and encode it effectively on a quantum many-body system, overcoming a challenging task towards scaled up quantum computation. The quantum module further capitalizes on the discriminative properties of many-body quantum dynamics to enhance classification accuracy. By mapping images from distinct classes to nearly-orthogonal quantum states, the system maximizes separability in the Hilbert space, enabling robust classification. We evaluate the performance of our model on several benchmark datasets with various number of features and classes. Moreover, we demonstrate the key role of the quantum module in achieving high classification accuracy which cannot be accomplished by the classical neural network alone. This showcases the potential of our hybrid protocol for achieving practical quantum advantage and paves the way for future advancements in quantum-enhanced computational techniques.
Ruiyang Zhou、Saubhik Sarkar、Sougato Bose、Abolfazl Bayat
计算技术、计算机技术
Ruiyang Zhou,Saubhik Sarkar,Sougato Bose,Abolfazl Bayat.Enhanced image classification via hybridizing quantum dynamics with classical neural networks[EB/OL].(2025-07-18)[2025-08-11].https://arxiv.org/abs/2507.13587.点此复制
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