利用 Reptile 元学习方法优化深度神经网络模型

IF 1.2 Q4 COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE Cognitive Computation and Systems Pub Date : 2023-12-15 DOI:10.1049/ccs2.12096
Uday Kulkarni, Meena S M, Raghavendra A Hallyal, Prasanna H Sulibhavi, Sunil V. G, Shankru Guggari, Akshay R. Shanbhag
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引用次数: 0

摘要

人工智能(AI)在过去十年中经历了飞速发展,已经具备了在各种情况下模拟人类思维的能力。当深度神经网络(DNN)在巨大的数据集和高计算资源的支持下进行训练时,它能带来巨大的成果。但 DNN 的学习过程非常复杂且耗时。在数据稀缺的各种情况下,算法无法以更快的速度学习任务,其表现也无法接近人类智能。随着深度元学习在多项研究中取得进展,这一问题已经得到解决。元学习的应用范围很广,可以利用任务、数据或以前训练过的模型的元数据(关于数据的数据)来优化学习。因此,为了深入了解用于 DNN 模型优化的所有现有元学习方法,作者进行了调查,介绍了不同的元学习技术以及当前基于优化的方法、它们的优点和面临的挑战。本研究选择 Reptile 元学习算法进行实验。由于 Reptile 在优化过程中使用一阶导数,因此使其在解决优化问题时具有可行性。作者提出的 Reptile 元学习算法版本的准确率提高了 5%。
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Optimisation of deep neural network model using Reptile meta learning approach
The artificial intelligence (AI) within the last decade has experienced a rapid development and has attained power to simulate human‐thinking in various situations. When the deep neural networks (DNNs) are trained with huge dataset and high computational resources it can bring out great outcomes. But the learning process of DNN is very much complicated and time‐consuming. In various circumstances, where there is a data‐scarcity, the algorithms are not capable of learning tasks at a faster rate and perform nearer to that of human intelligence. With advancements in deep meta‐learning in several research studies, this problem has been dealt. Meta‐learning has outspread range of applications where the meta‐data (data about data) of the either tasks, data or the models which were previously trained can be employed to optimise the learning. So in order to get an insight of all existing meta‐learning approaches for DNN model optimisation, the authors performed survey introducing different meta‐learning techniques and also the current optimisation‐based approaches, their merits and open challenges. In this research, the Reptile meta‐learning algorithm was chosen for the experiment. As Reptile uses first‐order derivatives during optimisation process, hence making it feasible to solve optimisation problems. The authors achieved a 5% increase in accuracy with the proposed version of Reptile meta‐learning algorithm.
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来源期刊
Cognitive Computation and Systems
Cognitive Computation and Systems Computer Science-Computer Science Applications
CiteScore
2.50
自引率
0.00%
发文量
39
审稿时长
10 weeks
期刊最新文献
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