YI Biao scite author profile

One of the main challenges of quantum many‐body physics is the exponential growth in the dimensionality of the Hilbert space with system size. This growth makes solving the Schrödinger equation of the system extremely difficult. Nonetheless, many physical systems have a simplified internal structure that typically makes the parameters needed to characterize their ground states exponentially smaller. Many numerical methods then become available to capture the physics of the system. Among modern numerical techniques, neural networks, which show great power in approximating functions and extracting features of big data, are now attracting much interest. In this work, the progress in using artificial neural networks to build quantum many‐body states is reviewed. The Boltzmann machine representation is taken as a prototypical example to illustrate various aspects of the neural network states. The classical neural networks are also briefly reviewed, and it is illustrated how to use neural networks to represent quantum states and density operators. Some physical properties of the neural network states are discussed. For applications, the progress in many‐body calculations based on neural network states, the neural network state approach to tomography, and the classical simulation of quantum computing based on Boltzmann machine states are briefly reviewed.

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Linguistic Steganalysis With Graph Neural Networks

Biao

Ding

et al. 2021

IEEE Signal Process. Lett.

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Exploiting Language Model For Efficient Linguistic Steganalysis

Biao

Feng

et al. 2022

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ALiSa: Acrostic Linguistic Steganography Based on BERT and Gibbs Sampling

Biao

Feng

et al. 2022

IEEE Signal Process. Lett.

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YI Biao

Quantum Neural Network States: A Brief Review of Methods and Applications

Linguistic Steganalysis With Graph Neural Networks

Exploiting Language Model For Efficient Linguistic Steganalysis

ALiSa: Acrostic Linguistic Steganography Based on BERT and Gibbs Sampling

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