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Quantum Generative Adversarial Network: A Survey

Tong Li, Shibin Zhang, Jinyue Xia

2020Computers, materials & continua/Computers, materials & continua (Print)26 citationsDOIOpen Access PDF

Abstract

Generative adversarial network (GAN) is one of the most promising methods for unsupervised learning in recent years. GAN works via adversarial training concept and has shown excellent performance in the fields image synthesis, image super-resolution, video generation, image translation, etc. Compared with classical algorithms, quantum algorithms have their unique advantages in dealing with complex tasks, quantum machine learning (QML) is one of the most promising quantum algorithms with the rapid development of quantum technology. Specifically, Quantum generative adversarial network (QGAN) has shown the potential exponential quantum speedups in terms of performance. Meanwhile, QGAN also exhibits some problems, such as barren plateaus, unstable gradient, model collapse, absent complete scientific evaluation system, etc. How to improve the theory of QGAN and apply it that have attracted some researcher. In this paper, we comprehensively and deeply review recently proposed GAN and QAGN models and their applications, and we discuss the existing problems and future research trends of QGAN.

Topics & Concepts

Generative grammarAdversarial systemComputer scienceQuantumQuantum machine learningImage translationTranslation (biology)Artificial intelligenceImage (mathematics)Generative adversarial networkDeep learningTheoretical computer scienceAlgorithmMachine learningQuantum computerPhysicsQuantum mechanicsMessenger RNAChemistryBiochemistryGeneQuantum Computing Algorithms and Architecture