Real World Examples of Agent based Decision Support Systems for Deep Learning based on Complex Feed Forward Neural Networks

International Conference on Complex Information Systems Pub Date : 1900-01-01 DOI:10.5220/0006307000940101

H. Kisch, C. Motta

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引用次数: 1

Abstract

Nature frequently shows us phenomena that in many cases are not fully understood. To research these phenomena we use approaches in computer simulations. This article presents a model based approach for the simulation of human brain functions in order to create recurrent machine learning map fractals that enable the investigation of any problem trained beforehand. On top of a neural network for which each neuron is illustrated with biological capabilities like collection, association, operation, definition and transformation, a thinking model for imagination and reasoning is exemplified in this research. This research illustrates the technical complexity of our dual thinking process in a mathematical and computational way and describes two examples, where an adaptive and self-regulating learning process was applied to real world examples. In conclusion, this research exemplifies how a previously researched conceptual model (SLA process) can be used for making progress to simulate the complex systematics of human thinking processes and gives an overview of the next major steps for making progress on how artificial intelligence can be used to simulate

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基于复杂前馈神经网络的深度学习决策支持系统的真实世界示例

大自然经常向我们展示许多我们无法完全理解的现象。为了研究这些现象，我们使用计算机模拟的方法。本文提出了一种基于模型的模拟人脑功能的方法，以创建循环机器学习图分形，从而能够对预先训练的任何问题进行调查。在神经网络上，每个神经元都具有收集、关联、操作、定义和转换等生物能力，在此基础上，本研究举例说明了一种想象和推理的思维模式。本研究以数学和计算的方式说明了我们双重思维过程的技术复杂性，并描述了两个例子，其中自适应和自我调节的学习过程被应用于现实世界的例子。总之，本研究举例说明了如何使用先前研究的概念模型(SLA过程)来模拟人类思维过程的复杂系统，并概述了在如何使用人工智能进行模拟方面取得进展的下一步主要步骤

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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International Conference on Complex Information Systems

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