Litcius/Paper detail

An AR-Assisted Deep Learning-Based Approach for Automatic Inspection of Aviation Connectors

Shufei Li, Pai Zheng, Lianyu Zheng

2020IEEE Transactions on Industrial Informatics107 citationsDOIOpen Access PDF

Abstract

The mismatched pins inspection of the complex aviation connector is a critical process to ensure the correct wiring harness assembly, of which the existing manual operation is error-prone and time-consuming. Aiming to fill this gap, this article proposes an augmented reality (AR)-assisted deep learning-based approach to tackle three major challenges in the aviation connector inspection, including the small pins detection, multipins sequencing, and mismatched pins visualization. First, the proposed spatial-attention pyramid network approach extracts the image features in multilayers and searches for their spatial relationships among the images. Second, based on the cluster-generation sequencing algorithm, these detected pins are clustered into annuluses of expected layers and numbered according to their polar angles. Finally, the AR glass as the inspection visualization platform, highlights the mismatched pins in the augmented interface to warn the operators automatically. Compared with the other existing methodologies, the experimental result shows that the proposed approach can achieve better performance accuracy and support the operator's inspection process efficiently.

Topics & Concepts

VisualizationComputer scienceAugmented realityProcess (computing)Cable glandDeep learningAviationAutomated optical inspectionArtificial intelligencePyramid (geometry)Computer visionEngineeringAerospace engineeringPhysicsOpticsOperating systemTelecommunicationsIndustrial Vision Systems and Defect DetectionSurface Roughness and Optical MeasurementsInfrastructure Maintenance and Monitoring
An AR-Assisted Deep Learning-Based Approach for Automatic Inspection of Aviation Connectors | Litcius