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Sensor Optimization for Variation Diagnosis in Multistation Assembly Processes

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  • Kang He
  • Xiaobiao Li
  • Fei Sun
  • Quan Yang
  • Bo Wu
  • Chao Meng
  • Wei Cai

Abstract

Appropriate sensor deployment is the key to the efficient diagnosis of product variation. Yet, optimizing sensor placement in complex manufacturing systems remains challenging. We propose a variation propagation analysis (VPA)-based sensor deployment strategy for variation diagnosis in multistation assembly processes. A state-space model is employed to analyze the influences of fixture faults and workpiece dimensional deviations on assembly variation. Based on matrix transformation, the assembly variation propagation characteristics are quantified and a VPN-based causal graph is constructed to represent the causality between assembly variation and sensor measurement. To ensure the diagnosability of over-tolerance of assembly variation (OAV) and the economics of the sensor system, an optimal sensor deployment scheme is presented. It uses the enhanced shuffled frog-leaping algorithm to minimize the OAV unobservability per unit cost and the sensor cost under the constraint of detectability. Finally, the effectiveness of the proposed approach is illustrated by a case study of sensor deployment for variation diagnosis in a multistation automobile differential assembly process.

Suggested Citation

  • Kang He & Xiaobiao Li & Fei Sun & Quan Yang & Bo Wu & Chao Meng & Wei Cai, 2022. "Sensor Optimization for Variation Diagnosis in Multistation Assembly Processes," Mathematical Problems in Engineering, Hindawi, vol. 2022, pages 1-8, August.
    • Handle: RePEc:hin:jnlmpe:7904677
    DOI: 10.1155/2022/7904677
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