AI 2025, 6, 275
Grad-CAM-Assisted Deep Learning for Mode Hop Localization in Shearographic Tire Inspection
By Manuel Friebolin, Michael Munz and Klaus Schlickenrieder
Abstract: In shearography-based tire testing, so-called “Mode Hops”, abrupt phase changes caused by laser mode changes, can lead to significant disturbances in the interference image analysis. These artifacts distort defect assessment, lead to retesting or false-positive decisions, and, thus, represent a significant hurdle for the automation of the shearography-based tire inspection process. This work proposes a deep learning workflow that combines a pretrained, optimized ResNet-50 classifier with Grad-CAM, providing a practical and explainable solution for the reliable detection and localization of Mode Hops in shearographic tire inspection images. We trained the algorithm on an extensive, cross-machine dataset comprising more than 6.5 million test images. The final deep learning model achieves a classification accuracy of 99.67%, a false-negative rate of 0.48%, and a false-positive rate of 0.24%. Applying a probability-based quadrant-repeat decision rule within the inspection process effectively reduces process-level false positives to zero, with an estimated probability of repetition of ≤0.084%. This statistically validated approach increases the overall inspection accuracy to 99.83%. The method allows the robust detection and localization of relevant Mode Hops and represents a significant contribution to explainable, Al-supported tire testing. It fulfills central requirements for the automation of shearography-based tire testing and contributes to the possible certification process of non-destructive testing methods in safety-critical industries.
Executive Impact & Key Metrics
This research addresses critical challenges in NDT, offering a robust, explainable AI solution for enhanced reliability and efficiency in industrial settings.
The Problem: Unreliable Shearographic Inspection
Mode Hops, or abrupt phase changes caused by laser mode shifts, significantly distort shearographic interference images. These artifacts lead to inaccurate defect assessments, necessitate costly retesting, and generate false-positive decisions, hindering the automation of tire inspection and compromising safety and efficiency.
The Solution: Grad-CAM-Assisted Deep Learning
A deep learning workflow, integrating a pretrained, optimized ResNet-50 classifier with Grad-CAM, provides a practical and explainable solution. This system reliably detects and localizes Mode Hops in shearographic images, trained on over 6.5 million cross-machine images. A probability-based quadrant-repeat decision rule is implemented to effectively eliminate process-level false positives.
The Impact: Enhanced Accuracy, Explainability, and Automation
- 99.83% Overall Inspection Accuracy: Significantly reduces misclassifications and retesting.
- Explainable AI with Grad-CAM: Provides visual transparency for decision-making and supports certification.
- False Positive Reduction to Zero: The quadrant-repeat rule ensures high confidence in detections.
- Industrial Scalability: Computationally efficient with high throughput, suitable for real-time integration.
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Deep Analysis & Enterprise Applications
Select a topic to dive deeper, then explore the specific findings from the research, rebuilt as interactive, enterprise-focused modules.
This section explores key insights into how artificial intelligence, specifically deep learning and explainable AI techniques, are being applied and advanced within the field of Non-Destructive Testing (NDT) to improve inspection reliability and automation.
99.83%
Overall Inspection Accuracy (Page 18)
Enterprise Process Flow
Initial Detection
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Targeted Re-inspection
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Probability Check
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Decision: Confirmed / Not Confirmed
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≤0.084%
Probability of False Positive Repetition (Page 19)
Real-time Integration & Efficiency Gains (Page 19 and 21)
The proposed deep learning workflow for Mode Hop detection is not only highly accurate but also computationally efficient, making it suitable for industrial deployment. With an inference time of approximately 12–13 milliseconds per shearography image on an RTX 4090 GPU, the system achieves a throughput of more than 80 images per second. This meets the requirements for real-time integration into existing tire inspection workflows, enabling full automation of the shearography-supported tire inspection process and contributing significantly to safety and reliability in the tire industry. The integration of AI, explainable analysis, and probability testing forms the basis for a patented process, fulfilling essential requirements for future certifiable testing procedures in safety-critical industries.
Calculate Your Potential ROI
Estimate the efficiency gains and cost savings your organization could achieve by implementing AI-powered NDT solutions.
Estimated Annual Savings
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Your AI Implementation Roadmap
A structured approach to integrating advanced AI into your NDT processes, ensuring robust and certified performance.
01 Pilot Integration
Integrate the AI model into a single inspection machine for initial validation in a live production environment. Focus on data collection, real-time feedback, and system stability.
02 Expanded Rollout & Calibration
Deploy the system across additional machines, performing train-on-site-A/test-on-site-B protocols. Conduct periodic re-validation to capture temporal drift and ensure consistent performance across diverse operating conditions.
03 Certification & Full Automation
Engage with certification bodies to meet non-destructive testing (NDT) standards. Establish standardized reporting and subgroup analysis to quantify domain robustness, paving the way for full automation and industrial certification.
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