Hierarchical fuzzy neural network‐based serviceability evaluation

Q1 Multidisciplinary International Journal of Agile Systems and Management Pub Date : 2000-08-01 DOI:10.1108/14654650010337140

Jiangping Wang, V. Allada

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引用次数: 13

Abstract

The ability to economically and effectively service products provides an avenue for extending the product’s useful life. Quantifying approaches are needed to assist in the serviceability evaluation. In this study, the serviceability characteristics of a product are categorized into three groups: disassembly, reassembly, and handling. Often, many of the serviceability characteristics of a product cannot be defined completely or properly using crisp design data. Moreover, the serviceability analysis is an imprecise science characterized by ill‐structured and subjective evaluation criteria. A formal methodology for representing and processing the design information of an artifact using a hierarchical fuzzy neural network (FNN) model is presented. First, three FNNs are used to compute the disassembly, reassembly, and handling indices. Second, the output of the three FNNs is fed into a separate FNN to compute the serviceability index. The designer can use the proposed model to rank alternate designs by computing the serviceability indices of each candidate design. The working of the proposed model is demonstrated by using two designs for a steam iron.

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基于层次模糊神经网络的适用性评价

经济有效地维护产品的能力为延长产品的使用寿命提供了途径。需要量化方法来协助进行可使用性评估。在本研究中，产品的可用性特征分为三组:拆卸、重组和处理。通常，产品的许多可服务性特征不能完全或正确地使用清晰的设计数据来定义。此外，适用性分析是一门不精确的科学，其特点是结构不良和主观的评估标准。提出了一种用层次模糊神经网络(FNN)模型表示和处理工件设计信息的形式化方法。首先，使用三个fnn计算拆解、重组和处理指标。其次，将三个FNN的输出输入到一个单独的FNN中，以计算可用性指数。设计人员可以通过计算每个候选设计的可用性指标来使用所提出的模型对备选设计进行排序。以蒸汽熨斗的两种设计为例，验证了该模型的有效性。

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来源期刊

International Journal of Agile Systems and Management Multidisciplinary-Multidisciplinary

CiteScore

2.70

自引率

0.00%

发文量

期刊介绍： The objective of IJASM is to establish an effective channel of communication between academia, industry and persons concerned with the design and development of systems. Change is eternal and perpetual, irrespective of type of system. Systems created in the course of the advance of human civilization need to be functionally and operationally sustainable amid changes in technological, political, socio-economical, financial, cultural and other environmental challenges. IJASM aims to promote and harmonize knowledge developments in the emerging fields of agile systems research, sustainability and vulnerability analysis, risk assessments methodologies, complex systems science, e-organisation and e-supply chain management, with emphasis on the international dimension, particularly breaking cultural barriers, and on national contexts, globalisation and new business practices. As such, we aim to publish papers presenting new research, innovative theoretical approaches, changes in agile management paradigms, and action (both examples of successes and failures as long as there are important lessons to be learned) from leading scholars and practitioners. Papers generally fall into two broad categories: those grounded in theory and/or papers using scientific research methods (e.g., reports of original empirical studies, models, critical reviews of existing empirical research, theory pieces that clearly extend current thinking); and those focusing on innovative agile approaches that are based on well reasoned extensions of existing research, experiential knowledge, or exemplary cases (e.g., thought pieces, case studies, etc).