Generic distributed polymorphic learning model for a community of heterogeneous cyber physical social robots in MAS Environment and GPU Architecture

2020 International Conference on Intelligent Systems and Computer Vision (ISCV) Pub Date : 2020-06-01 DOI:10.1109/ISCV49265.2020.9204226

M. Youssfi, O. Bouattane, Kaburlasos Vassilis, G. Papakostas

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引用次数: 1

Abstract

This paper presents a new distributed polymorphic learning model for a community of heterogeneous cyber physical robots operating in a multi agent environment. This model allows a community of intelligent physical agents to exchange their minds represented by configured and trained neural net-works. The training operation of the neural networks is performed, using machines and deep learning techniques, in a distributed way based on special agents deployed in machines having high-performance computing resources based on GPUs. Each mind, specialized in a specific field, is initially affected to an agent. Depending on the event context, robots can automatically select the trained and appropriate trained network to resolve the situation either by using their own training models, or by collaborating with other agents specialized to perform the context event. In this article, we present results of a model implementation based on DeepLearning4J Framework and a multi-agent system middleware

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MAS环境和GPU架构下异构网络物理社交机器人社区的通用分布式多态学习模型

针对多智能体环境下的异构网络物理机器人群体，提出了一种新的分布式多态学习模型。该模型允许智能物理代理社区通过配置和训练的神经网络来交换他们的思想。神经网络的训练操作使用机器和深度学习技术，以分布式的方式进行，基于部署在具有基于gpu的高性能计算资源的机器上的特殊代理。每个专注于特定领域的心灵，最初都被影响到一个代理。根据事件上下文，机器人可以通过使用自己的训练模型或与其他专门执行上下文事件的代理协作，自动选择经过训练和适当训练的网络来解决情况。在本文中，我们展示了基于DeepLearning4J框架和多代理系统中间件的模型实现的结果

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来源期刊

2020 International Conference on Intelligent Systems and Computer Vision (ISCV)

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