Neuro-Fuzzy Models and Applications

Sushruta Mishra, Soumya Sahoo, B. K. Mishra
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引用次数: 2

Abstract

The modern techniques of artificial intelligence have found application in almost all the fields of human knowledge. Among them, two important techniques of artificial intelligence, fuzzy systems (FS) and artificial neural networks (ANNs), have found many applications in various fields such as production, control systems, diagnostic, supervision, etc. They evolved and improved throughout the years to adapt arising needs and technological advancements. However, a great emphasis is given in the engineering field. The techniques of artificial intelligence based on fuzzy logic and neural networks are frequently applied together for solving engineering problems where the classic techniques do not supply an easy and accurate solution. Separately, each one of these techniques possesses advantages and disadvantages that, when mixed together, provide better results than the ones achieved with the use of each isolated technique. As ANNs and fuzzy systems have often been applied together, the concept of a fusion between them started to take shape. Neuro-fuzzy systems were born which utilize the advantages of both techniques. Such systems show two distinct ways of behavior. In a first phase, called learning phase, it behaves like neural networks that learn internal parameters off-line. Later, in the execution phase, it behaves like a fuzzy logic system. A neuro-fuzzy system is a fuzzy system that uses a learning algorithm derived from or inspired by neural network theory to determine its parameters (fuzzy sets and fuzzy rules) by processing data samples. Neural networks and fuzzy systems can be combined to join its advantages and to cure its individual illness. Neural networks introduce its computational characteristics of learning in the fuzzy systems and receive from them the interpretation and clarity of systems representation. Thus, the disadvantages of the fuzzy systems are compensated by the capacities of the neural networks. These techniques are complementary, which justifies its use together. This chapter deals with an analysis of neuro-fuzzy systems. Benefits of these systems are studied with its limitations too. Comparative analyses of various categories of neuro-fuzzy systems are discussed in detail. Apart from these, real-time applications of such systems are also presented.
神经模糊模型及其应用
人工智能的现代技术几乎应用于人类知识的所有领域。其中,人工智能的两大重要技术——模糊系统(FS)和人工神经网络(ann)在生产、控制系统、诊断、监督等各个领域都有广泛的应用。它们多年来不断发展和改进,以适应日益增长的需求和技术进步。然而,在工程领域给予了很大的重视。基于模糊逻辑和神经网络的人工智能技术经常被用于解决经典技术无法提供简单和准确解的工程问题。单独地说,这些技术中的每一种都有优点和缺点,当它们混合在一起时,比使用单独的技术所获得的结果更好。由于人工神经网络和模糊系统经常一起应用,它们之间融合的概念开始形成。利用这两种技术优点的神经模糊系统诞生了。这类系统表现出两种截然不同的行为方式。在第一个阶段,称为学习阶段,它的行为就像离线学习内部参数的神经网络。随后,在执行阶段,它表现得像一个模糊逻辑系统。神经模糊系统是一种模糊系统,它使用源自或受神经网络理论启发的学习算法,通过处理数据样本来确定其参数(模糊集和模糊规则)。神经网络和模糊系统可以结合起来,结合它的优点,治疗它的个体疾病。神经网络在模糊系统中引入其学习的计算特性,并从中获得系统表示的解释和清晰度。因此,模糊系统的缺点被神经网络的能力所弥补。这些技术是互补的,因此可以一起使用。本章讨论神经模糊系统的分析。研究了这些系统的优点及其局限性。对不同类型的神经模糊系统进行了比较分析。此外,还介绍了该系统的实时应用。
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