Akshansh Mishra, Abhijeet Singh, M. Saravanan, Anish Dasgupta
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引用次数: 0
摘要
神经网络是新一代的信息处理范式,旨在模仿人类大脑的某些行为。这些网络由于其学习、回忆和从训练数据中泛化的能力而获得了极大的普及。在过去的四十年中,许多神经网络范式被报道出来,在过去的十年中,神经网络得到了改进,并被研究人员和应用工程师广泛使用。采用准牛顿算法训练神经网络,对铝合金不同搅拌摩擦焊接接头的伸长率和极限抗拉强度进行了预测。Mishra A, Singh A, Saravanan M等。基于人工智能确定异种船用级铝合金搅拌摩擦焊接接头伸长率和极限抗拉强度的方法J Adv Res苹果人工智能英特尔神经网络2019;3(1、2点):21。
An Artificial Intelligence Based Approach to Determine the Elongation % and Ultimate Tensile Strength of Friction Stir Welded Dissimilar Marine Grade Aluminium Alloy Joints
Neural networks are a new generation of information processing paradigms designed to mimic some of the behaviours of the human brain. These networks have gained tremendous popularity due to their ability to learn, recall and generalize from training data. A number of neural network paradigms have been reported in the last four decades, and in the last decade the neural networks have been refined and widely used by researchers and application engineers. This study focuses on the prediction of the elongation % and Ultimate Tensile Strength (UTS) of the dissimilar Friction Stir Welded joints of aluminium alloys by training the Neural Network on Quasi Newton Algorithm.
How to cite this article
Mishra A, Singh A, Saravanan M et al. An Artificial Intelligence based Approach to Determine the Elongation % and Ultimate Tensile Strength of Friction Stir Welded Dissimilar Marine Grade Aluminium Alloy Joints. J Adv Res Appl Arti Intel Neural Netw 2019; 3(1&2): 1-21.
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