A multi-criteria fusion-based pose estimation method for civil aircraft maintenance operation tasks

Advanced Design Research Pub Date : 2024-12-01 DOI:10.1016/j.ijadr.2024.12.001

Huining Pei, Jingru Cao, Man Ding, Ziyu Wang, Yunfeng Chen, Fanghua Zhao

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Abstract

Objective

To solve the problems of subjectivity, low feasibility, and use of a single assessment index in the traditional load assessment for civil aircraft maintenance (CAM) tasks.

Background

High-intensity workloads pose significant risks to the physical and mental health and safety of civil aviation staff.

Methods

This work proposes the DNMEREC-DNCRADIS multi-criteria assessment method. DNMEREC-DNCRADIS is derived from the method based on the Removal Effects of Criteria (MEREC) and the Compromise Ranking of Alternatives from Distance to Ideal Solution (CRADIS) method. The digital model of the Boeing 737 aircraft engine is established. Then, Jack software is used to simulate the dynamic maintenance activities of aircraft maintenance workers, and eight types of simulation analysis data are used to assess their maintenance posture. Finally, the assessment data are analyzed using the DNMEREC-DNCRADIS method, and the overall priority scores for each maintenance task alternative are computed and ranked.

Results

The results demonstrate that removing the fan blade and fan blade shim at the 3 o'clock position imposes the lowest workload on maintenance personnel.

Conclusion

In practical application, operation at the 3 o'clock position should be considered, or height-adjustable engine hangers should be adopted to adapt to the work requirements of different positions. This also can reduce the load caused by the maintenance personnel being in an awkward position for a long period, as well as other hidden dangers.