Human Inspired Memory Module for Memory Augmented Neural Networks

2022 IEEE International Conference on Industry 4.0, Artificial Intelligence, and Communications Technology (IAICT) Pub Date : 2022-07-28 DOI:10.1109/IAICT55358.2022.9887485

Amir Bidokhti, S. Ghaemmaghami

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Abstract

Memory is an essential element in most artificial intelligence systems. Recurrent neural networks and long-short term memories are some examples of deep learning structures that have some memory capabilities. As a new approach for incorporating explicit memory into deep learning systems, memory augmented neural networks have been introduced earlier. The neural Turing machine, as a distinguished and pioneering example, is able to emulate a conventional digital computer but fails in more complex tasks. We propose an external memory module, which is composed of two separate submodules for short- and long-term memories. The long-term memory is structured as a graph, equipped with a read/write mechanism. Being fully differentiable makes this memory system easy to be trained via backpropagation. To show the superiority of the proposed system in complex tasks with longterm dependencies, some experiments are conducted. Our analysis shows that this dual-memory system outperforms the neural Turing machine in terms of convergence speed and loss.

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用于记忆增强神经网络的人类启发记忆模块

记忆是大多数人工智能系统的基本要素。循环神经网络和长短期记忆是一些具有记忆能力的深度学习结构的例子。记忆增强神经网络作为一种将外显记忆整合到深度学习系统中的新方法，已经在较早的时候被引入。神经图灵机作为一个杰出的先驱，能够模拟传统的数字计算机，但在更复杂的任务中却失败了。我们提出了一种外部记忆模块，它由两个独立的子模块组成，分别用于短期和长期记忆。长期记忆的结构是一个图形，配有读/写机制。完全可微使得该记忆系统易于通过反向传播进行训练。为了证明所提出的系统在具有长期依赖关系的复杂任务中的优越性，进行了一些实验。我们的分析表明，这种双存储器系统在收敛速度和损失方面优于神经图灵机。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2022 IEEE International Conference on Industry 4.0, Artificial Intelligence, and Communications Technology (IAICT)

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