Abstract
Given that the cable harness wiring quality (CHWQ) of complex mechatronic products is affected by multiple factors and it is difficult to solve the resulting control problems, this paper proposes a quality prediction method for cable harness wiring using extension theory and a backpropagation (BP) neural network. First, a quality prediction framework is designed based on the factors influencing the composition and analysis of the CHWQ. Second, we establish a quality evaluation index system based on five aspects and design a first-level factor set and a second-level factor set. Based on the single factor index for various parameters and evaluation of data after dimensionless parameter processing, we use extension theory and the entropy weight method to determine the membership matrix and the fuzzy weight vector for the first-level evaluation. Additionally, the single factor and the synthetic fuzzy weight vector are determined using the entropy weight method and the analytic hierarchy process (AHP), respectively, and quality grade evaluation based on the fuzzy synthetic evaluation (FSE) method is completed. Finally, we use a three-layer feedforward neural network to predict the quality status of a specific phased array radar system. The results demonstrate that the proposed method can produce increased prediction accuracy.
Highlights
A cable harness generally consists of cables, connectors and sheaths.[1]
This paper proposes a quality prediction and control method for cable harness wiring that uses extension theory and a backpropagation (BP) neural network
(1) A quality prediction framework is designed for cable harness wiring based on the factors influencing the composition and analysis of the cable harness wiring quality (CHWQ)
Summary
A cable harness generally consists of cables, connectors and sheaths.[1]. Cable harnesses are widely used in complex mechatronic products to connect different items of electronic equipment and must meet specific electrical and mechanical requirements.[1,2,3] As an energy and signal transmission medium, the cable harness is playing an increasingly important role in complex mechatronic products for applications such as airplanes, satellites, radar and shipping equipment. 17 In a defined universe, the associated function value can quantitatively describe the changes in the relationships between each multi-dimensional matter element and each extension set and, on the basis of a correlation degree analysis, can distinguish different levels and allow upward range expansion to be realized.[18,19] Extension theory can deal with any incompatibility issues and can express the features of the objective by building a matter element evaluation model.[17,20] Extension theory has been widely used in various fields.[18,20,21,22] In this paper, we use the extension theory method to study the wiring quality assessment. On the basis of the characteristics of the complex mechatronic products and the factors influencing the composition and the quality of the wiring, we establish a quality evaluation index system for cable harness wiring based on the following five aspects: (a) mechanical performance; (b) electrical. Equation (4) is used to express the classical field as follows:
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