Robotic path planning for non-destructive testing – A custom MATLAB toolbox approach

Mineo, Carmelo; Pierce, S. Gareth; Nicholson, P. Ian; Cooper, Ian

doi:10.1016/j.rcim.2015.05.003

Cited by 92 publications

(61 citation statements)

References 10 publications

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“…One of the classical solutions that has been established for decades is to train an NDT inspector on various inspection methods, however it is relatively expensive in matter of time and costs to train human resources until the certification is reached. To tackle this problem, two mainstreams of automated SDI has been proposed: the robotics NDT [6] and Structural Health Monitoring (SHM) [7]. While robotics NDT typically means robot-assisted non-destructive inspection (NDI) by employing NDI instruments, in SHM the NDI instruments normally become an integral part of the structure itself [8].…”

Section: Structural Diagnostic In Aircraft Maintenancementioning

confidence: 99%

DeepSHM: a deep learning approach for structural health monitoring based on guided Lamb wave technique

Ewald

Groves

Benedictus

2019

Sensors and Smart Structures Technologies for Civil, Mechanical, and Aerospace Systems 2019

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A deep learning approach for structural health monitoring based on guided Lamb wave technique Ewald, Vincentius; Groves, Roger M.; Benedictus, Rinze ABSTRACTIn our previous work, we demonstrated how to use inductive bias to infuse a convolutional neural network (CNN) with domain knowledge from fatigue analysis for aircraft visual NDE. We extend this concept to SHM and therefore in this paper, we present a novel framework called DeepSHM which involves data augmentation of captured sensor signals and formalizes a generic method for end-to-end deep learning for SHM. The study case is limited to ultrasonic guided waves SHM. The sensor signal response from a Finite-Element-Model (FEM) is pre-processed through wavelet transform to obtain the wavelet coefficient matrix (WCM), which is then fed into the CNN to be trained to obtain the neural weights. In this paper, we present the results of our investigation on CNN complexities that is needed to model the sensor signals based on simulation and experimental testing within the framework of DeepSHM concept.

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Section: Structural Diagnostic In Aircraft Maintenancementioning

confidence: 99%

DeepSHM: a deep learning approach for structural health monitoring based on guided Lamb wave technique

Ewald

Groves

Benedictus

2019

Sensors and Smart Structures Technologies for Civil, Mechanical, and Aerospace Systems 2019

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“…The robot arm was programmed to trace a quarter hemisphere around the sample, at a distance of 100, 200, 300 and 400 mm. A loudspeaker was mounted on the robot arm, and the execution of the robot path was controlled by custom MATLAB code interfaced with the robot controller through the KUKA Robot Sensor Interface (RSI) [31]. The data acquisition was synchronized with the progression of the robot path.…”

Section: Mapping the Stop Bandmentioning

confidence: 99%

Enhancing the Sound Absorption of Small-Scale 3-D Printed Acoustic Metamaterials Based on Helmholtz Resonators

et al. 2018

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Acoustic metamaterials have recently become of interest for their ability to attenuate sound by breaking the massdensity law. In this paper, acoustic metamaterials based on Helmholtz resonators and capable of attenuating sound up to 30 dB are fabricated for sound absorption applications in the smallscale. The proposed metamaterials are subwavelength at a factor of / with respect to the lateral dimension of the units. The directional response due to the position of the acoustic source on the sound attenuation provided by the metamaterial is investigated by controlling the location of a loudspeaker with a robot arm. To enhance and broaden the absorption bands, structural modifications are added such that overtones are tuned to selected frequencies, and membranes are included at the base of the resonators. This design is made possible by innovative 3D printing techniques based on stereolithography and on the use of specific UV-curable resins. These results show that these designs could be used for sound control in small-scale electroacoustic devices and sensors.

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“…From data acquired during this first scan, a shape scan step is performed to retrieve the approximate shape of the object. Mineo et al [18] develop a MATLAB toolbox named RoboNDT in order to generate the raster scan paths for surface inspection by the 6-axis industrial robots. Starting from the triangular mesh imported from the CAD model, the idea is to generate a raster scan path defined as a succession of curves and associated normal vectors.…”

Section: Scan Path Planningmentioning

confidence: 99%

Scanner path planning with the control of overlap for part inspection with an industrial robot

Phan

Quinsat

Lavernhe

et al. 2018

Int J Adv Manuf Technol

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Robotic path planning for non-destructive testing – A custom MATLAB toolbox approach

Cited by 92 publications

References 10 publications

DeepSHM: a deep learning approach for structural health monitoring based on guided Lamb wave technique

DeepSHM: a deep learning approach for structural health monitoring based on guided Lamb wave technique

Enhancing the Sound Absorption of Small-Scale 3-D Printed Acoustic Metamaterials Based on Helmholtz Resonators

Scanner path planning with the control of overlap for part inspection with an industrial robot

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