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1. 3-Dimensional residual neural architecture search for ultrasonic defect detection

Author

McKnight, Shaun, MacKinnon, Christopher, Pierce, S. Gareth, Mohseni, Ehsan, Tunukovic, Vedran, MacLeod, Charles N., Vithanage, Randika K. W., and OHare, Tom

Subjects
Electrical Engineering and Systems Science - Image and Video Processing
Abstract

This study presents a deep learning methodology using 3-dimensional (3D) convolutional neural networks to detect defects in carbon fiber reinforced polymer composites through volumetric ultrasonic testing data. Acquiring large amounts of ultrasonic training data experimentally is expensive and time-consuming. To address this issue, a synthetic data generation method was extended to incorporate volumetric data. By preserving the complete volumetric data, complex preprocessing is reduced, and the model can utilize spatial and temporal information that is lost during imaging. This enables the model to utilise important features that might be overlooked otherwise. The performance of three architectures were compared. The first two architectures were hand-designed to address the high aspect ratios between the spatial and temporal dimensions. The first architecture reduced dimensionality in the time domain and used cubed kernels for feature extraction. The second architecture used cuboidal kernels to account for the large aspect ratios. The evaluation included comparing the use of max pooling and convolutional layers for dimensionality reduction, with the fully convolutional layers consistently outperforming the models using max pooling. The third architecture was generated through neural architecture search from a modified 3D Residual Neural Network (ResNet) search space. Additionally, domain-specific augmentation methods were incorporated during training, resulting in significant improvements in model performance for all architectures. The mean accuracy improvements ranged from 8.2% to 22.4%. The best performing models achieved mean accuracies of 91.8%, 92.2%, and 100% for the reduction, constant, and discovered architectures, respectively. Whilst maintaining a model size smaller than most 2-dimensional (2D) ResNets.

Published
2023
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5. Dual Mode Inspection Using Guided Waves and Phased Array Ultrasonics from a Single Transducer

Author

Tzaferis, Konstantinos, Tabatabaeipour, Morteza, Dobie, Gordon, Pierce, Stephen G., Lines, David, MacLeod, Charles N., Gachagan, Anthony, di Prisco, Marco, Series Editor, Chen, Sheng-Hong, Series Editor, Vayas, Ioannis, Series Editor, Kumar Shukla, Sanjay, Series Editor, Sharma, Anuj, Series Editor, Kumar, Nagesh, Series Editor, Wang, Chien Ming, Series Editor, Rizzo, Piervincenzo, editor, and Milazzo, Alberto, editor

Published
2023
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6. In-process non-destructive evaluation of metal additive manufactured components at build using ultrasound and eddy-current approaches

Author

Zimermann, Rastislav, Mohseni, Ehsan, Foster, Euan A., Vasilev, Momchil, Loukas, Charalampos, Vithanage, Randika K.W., Macleod, Charles N., Lines, David, Silva, Misael Pimentel Espirindio E., Fitzpatrick, Stephen, Halavage, Steven, McKegney, Scott, Rizwan, Muhammad Khalid, Pierce, Stephen Gareth, Williams, Stewart, and Ding, Jialuo

Published
2023
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16. Deployment of Contact-Based Ultrasonic Thickness Measurements Using Over-Actuated UAVs

Author

Watson, Robert J., Pierce, S. Gareth, Kamel, Mina, Zhang, Dayi, MacLeod, Charles N., Dobie, Gordon, Bolton, Gary, Dawood, Tariq, Nieto, Juan, di Prisco, Marco, Series Editor, Chen, Sheng-Hong, Series Editor, Vayas, Ioannis, Series Editor, Kumar Shukla, Sanjay, Series Editor, Sharma, Anuj, Series Editor, Kumar, Nagesh, Series Editor, Wang, Chien Ming, Series Editor, Rizzo, Piervincenzo, editor, and Milazzo, Alberto, editor

Published
2021
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19. Single-Bit Reception With Coded Excitation for Lightweight Advanced Ultrasonic Imaging Systems

Author

Nicolson, Ewan, Lines, David, Mohseni, Ehsan, and MacLeod, Charles N.

Abstract

The demand for an efficient and reliable ultrasonic phased array imaging system is not unique to a single industry. Today’s imaging systems can be enhanced in a number of areas including; improving scanning and processing times, reducing data storage requirements, simplifying hardware, and prolonging probe lifespan. In this work, it is shown that by combining the use of coded excitation with single-bit data capture, a number of these areas can be improved. Despite using single-bit receive data, resolution can be recovered through the coded excitation pulse compression process, and shown to produce high signal-to-noise ratio (SNR) images of phase coherence imaging (PCI) and total focusing method (TFM) of tip diffraction in a carbon steel sample. Comparison with conventional single-cycle transmission pulses has shown that little imaging performance degradation is seen despite a significant reduction in data resolution and size. This has also been shown to be effective at low excitation voltages with gain compensation due to the obsolescence of signal saturation concerns when considering single-bit receive data. The ability to compute high-resolution ultrasonic images from low-resolution input data at low transmission voltages has important implications for data compression, acquisition and imaging performance, operator safety, and hardware simplification for ultrasonic imaging systems across industrial and medical fields.

Published
2024
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20. Advancing Carbon Fiber Composite Inspection: Deep Learning-Enabled Defect Localization and Sizing via 3-D U-Net Segmentation of Ultrasonic Data

Author

McKnight, Shaun, Tunukovic, Vedran, Gareth Pierce, S., Mohseni, Ehsan, Pyle, Richard, MacLeod, Charles N., and O'Hare, Tom

Abstract

In nondestructive evaluation (NDE), accurately characterizing defects within components relies on accurate sizing and localization to evaluate the severity or criticality of defects. This study presents for the first time a deep learning (DL) methodology using 3-D U-Net to localize and size defects in carbon fiber reinforced polymer (CFRP) composites through volumetric segmentation of ultrasonic testing (UT) data. Using a previously developed approach, synthetic training data, closely representative of experimental data, was used for the automatic generation of ground truth segmentation masks. The model’s performance was compared to the conventional amplitude 6 dB drop analysis method used in the industry against ultrasonic defect responses from 40 defects fabricated in CFRP components. The results showed good agreement with the 6 dB drop method for in-plane localization and excellent through-thickness localization, with mean absolute errors (MAEs) of 0.57 and 0.08 mm, respectively. Initial sizing results consistently oversized defects with a 55% higher mean average error than the 6 dB drop method. However, when a correction factor was applied to account for variation between the experimental and synthetic domains, the final sizing accuracy resulted in a 35% reduction in MAE compared to the 6 dB drop technique. By working with volumetric ultrasonic data (as opposed to 2-D images), this approach reduces preprocessing (such as signal gating) and allows for the generation of 3-D defect masks which can be used for the generation of computer-aided design files; greatly reducing the qualification reporting burden of NDE operators.

Published
2024
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28. Transforming Industrial Manipulators via Kinesthetic Guidance for Automated Inspection of Complex Geometries

Author

Loukas, Charalampos, primary, Vasilev, Momchil, additional, Zimmerman, Rastislav, additional, Vithanage, Randika K. W., additional, Mohseni, Ehsan, additional, MacLeod, Charles N., additional, Lines, David, additional, Pierce, Stephen Gareth, additional, Williams, Stewart, additional, Ding, Jialuo, additional, Burnham, Kenneth, additional, Sibson, Jim, additional, O’Hare, Tom, additional, and Grosser, Michael R., additional

Published
2023
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31. Automated Real-Time Eddy Current Array Inspection of Nuclear Assets

Author

Foster, Euan Alexander, primary, Bolton, Gary, additional, Bernard, Robert, additional, McInnes, Martin, additional, McKnight, Shaun, additional, Nicolson, Ewan, additional, Loukas, Charalampos, additional, Vasilev, Momchil, additional, Lines, Dave, additional, Mohseni, Ehsan, additional, Gachagan, Anthony, additional, Pierce, Gareth, additional, and Macleod, Charles N., additional

Published
2022
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32. Development of a Phased Array Ultrasonic System for Residual Stress Measurement in Welding and Additive Manufacturing

Author

Javadi, Yashar, additional, Hutchison, Alistair, additional, Zimermann, Rastislav, additional, Lines, David, additional, Sweeney, Nina E., additional, Vasilev, Momchil, additional, Mohseni, Ehsan, additional, Vithanage, Randika K. W., additional, MacLeod, Charles N., additional, Pierce, Gareth, additional, Mehnen, Jorn, additional, and Gachagan, Anthony, additional

Published
2022
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33. Collaborative Robotic Wire + Arc Additive Manufacture and Sensor-Enabled In-Process Ultrasonic Non-Destructive Evaluation

Author

Zimermann, Rastislav, primary, Mohseni, Ehsan, additional, Vasilev, Momchil, additional, Loukas, Charalampos, additional, Vithanage, Randika K. W., additional, Macleod, Charles N., additional, Lines, David, additional, Javadi, Yashar, additional, Espirindio E Silva, Misael Pimentel, additional, Fitzpatrick, Stephen, additional, Halavage, Steven, additional, Mckegney, Scott, additional, Pierce, Stephen Gareth, additional, Williams, Stewart, additional, and Ding, Jialuo, additional

Published
2022
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39. Interfacing Toolbox for Robotic Arms with Real-Time Adaptive Behavior Capabilities

Author

Mineo, Carmelo, Wong, Cuebong, Vasilev, Momchil, Cowan, Bruce, MacLeod, Charles N., Pierce, S. Gareth, and Yang, Erfu

Subjects
TK
Abstract

Industrial robotic systems are increasingly being used to perform tasks requiring in-loop adaptive behavior to accommodate the demands of data-driven and autonomous manufacturing in the era of Industry 4.0. Achieving effective integration and the full potential of robotic systems presents significant challenges. This paper presents a C++ language-based toolbox, developed to facilitate the integration of industrial robotic arms with server computers, sensors and actuators. The new toolbox, namely the “Interfacing Toolbox for Robotic Arms” (ITRA), is fully flexible and extensible. It is capable of controlling multiple robots simultaneously, thus providing the opportunity for sophisticated manufacturing operations to be coordinated among multiple robots. ITRA can be used to achieve fast adaptive robotic systems, with latency as low as 30ms. Moreover, ITRA is cross-platform, allowing great flexibility between different computer architectures. The paper describes the architecture of ITRA, presents all its functions and gives some application examples.

Published
2019

40. A Proposed Methodology to Assess the Accuracy of 3D Scanners and Casts and Monitor Tooth Wear Progression in Patients.

Author

Ahmed, Khaled E., Whitters, John, Xiangyang Ju, Pierce, S. Gareth, MacLeod, Charles N., Murray, Colin A., and Ju, Xiangyang

Subjects
THREE-dimensional imaging, DENTAL casting, METHODOLOGY, TOOTH abrasion, PATIENTS, DENTAL impression materials, POLYETHERS, STAINLESS steel, DENTAL materials, DENTAL technology, DENTITION, DIAGNOSTIC imaging, INCISORS, LONGITUDINAL method, DENTAL pathology, CALCIUM compounds, DISEASE progression, STANDARDS, DIAGNOSIS
Abstract

Purpose: The aim of this study was to detail and assess the capability of a novel methodology to 3D-quantify tooth wear progression in a patient over a period of 12 months.Materials and Methods: A calibrated stainless steel model was used to identify the accuracy of the scanning system by assessing the accuracy and precision of the contact scanner and the dimensional accuracy and stability of casts fabricated from three different types of impression materials. Thereafter, the overall accuracy of the 3D scanning system (scanner and casts) was ascertained. Clinically, polyether impressions were made of the patient's dentition at the initial examination and at the 12-month review, then poured in type IV dental stone to assess the tooth wear. The anterior teeth on the resultant casts were scanned, and images were analyzed using 3D matching software to detect dimensional variations between the patient's impressions.Results: The accuracy of the 3D scanning system was established to be 33 μm. 3D clinical analysis demonstrated localized wear on the incisal and palatal surfaces of the patient's maxillary central incisors. The identified wear extended to a depth of 500 μm with a distribution of 4% to 7% of affected tooth surfaces.Conclusion: The newly developed 3D scanning methodology was found to be capable of assessing and accounting for the various factors affecting tooth wear scanning. Initial clinical evaluation of the methodology demonstrates successful monitoring of tooth wear progression. However, further clinical assessment is needed. [ABSTRACT FROM AUTHOR]

Published
2016
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43. Clinical Monitoring of Tooth Wear Progression in Patients over a Period of One Year Using CAD/CAM.

Author

Ahmed, Khaled E., Whitters, John, Xiangyang Ju, Pierce, Gareth, MacLeod, Charles N., Murray, Colin A., Ju, Xiangyang, and Pierce, S Gareth

Subjects
TOOTH abrasion, CAD/CAM systems, INCISORS, DENTAL impressions, PATIENT monitoring, PATIENTS
Abstract

Purpose: The aim of this study was to clinically monitor the progression of tooth wear over a period of 1 year in a cohort of referred tooth wear patients through the use of a computer-aided design/computer-assisted manufacture (CAD/CAM) scanner and a standardized scanning/assessment methodology.Materials and Methods: Polyether impressions were made of 11 participants (130 teeth) at baseline and at 1 year. Impressions were poured in type IV dental stone and the anterior teeth were 3D scanned. A surface-matching software was used to compare 1-year and baseline scans and identify any dimensional differences.Results: Parafunctional habits were reported by all patients. All participants exhibited tooth wear ≥ 140 μm in depth and extending to ≥ 280 μm in at least one tooth. Maxillary central incisors were the most commonly and severely affected teeth.Conclusion: The ability of the developed CAD/CAM scanning methodology in clinical monitoring of tooth wear was demonstrated. Further research is needed to assess its practicality in large-scale epidemiologic tooth wear studies. [ABSTRACT FROM AUTHOR]

Published
2017
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50. Low cost three-dimensional virtual model construction for remanufacturing industry

Author

Siddiqi, Muftooh U. R., Ijomah, Winifred L., Dobie, Gordon I., Hafeez, Mutahir, Pierce, S. Gareth, Ion, William, Mineo, Carmelo, MacLeod, Charles N., Amin, Saman Hassanzadeh, Siddiqi M.U.R., Ijomah W.L., Dobie G.I., Hafeez M., Gareth Pierce S., Ion W., Mineo C., and MacLeod C.N.

Subjects
Automotive engine, 0209 industrial biotechnology, Computer science, Machine vision, 020209 energy, TK, Point cloud, 02 engineering and technology, Management, Monitoring, Policy and Law, TS, Industrial and Manufacturing Engineering, Settore ING-IND/14 - Progettazione Meccanica E Costruzione Di Macchine, 020901 industrial engineering & automation, Digital manufacturing, ddc:650, 0202 electrical engineering, electronic engineering, information engineering, 3D reconstruction, Waste Management and Disposal, Remanufacturing, business.industry, 3D reconstruction, Digital manufacturing, Machine vision, Remanufacturing, Cyber-physical system, Automation, Industrial engineering, TA174, business, Engineering design process
Abstract

Remanufactured products can save up to 80% of production and energy costs whilst generating lower CO2 emissions. The key success factors for remanufacturing are quality, lead-time and cost. Extensive work within the industry and the detailed analysis of the remanufacturing process has shown that component inspection has significant bearing on overall productivity. Remanufacturing lacks automation because activities are predominantly manual. Automation of remanufacturing process will not only decrease the number of non-remanufacturable components, through decreasing cost and increasing consistency in quality, but also attract industries to design for remanufacture. A digital model of the component is required to automate the disassembly process and move towards industry 4.0 and cyber physical systems. There are several expensive techniques to create a digital model, which are not feasible for the remanufacturing industry. The research paper aims to check feasibility of using Visual Structure for Motion (VFM), a relatively low cost method, to develop a 3D digital model, for automation of the automotive engine (in as received condition) disassembly process using industrial robots. These initial experiments assess the feasibility of using Videogrammetry to acquire pre-disassembly 3D model of the engine. Multiple 2D images were acquired and processed to find matching common features. The location of the camera was calculated through the matching features, producing a three-dimensional digital representation of the captured volume. A sparse point cloud was initially created which and was then converted into a dense 3D point cloud. The 3D point cloud was converted into a meshed model. 2D images are stitched together to create a virtual model of the engine with surface texture and colour. Small features of a few couple of millimetres in size are clearly visible in the 3D model.

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