Simulation of a machine vision system for reflective surface defect inspection based on ray tracing

Zhang, Peng-Fei; Cao, Pin; Yang, Yongrong; Guo, Pan; Chen, Shiwei; Zhang, Danhui

doi:10.1364/ao.385486

Cited by 4 publications

(3 citation statements)

References 16 publications

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“…Furthermore, they analysed several simulation techniques for calculating the diffraction parameters based on the scattering angle. Additionally, Zhang et al [46] presented a method to simulate an image processing system for the inspection of a reflecting surface by means of ray tracing. The overall simulation consists of a defined camera model in combination with the reflection properties of the surface as well as the intensity and distribution of the reflected radiation as input parameters.…”

Section: Reflection Scattering and Beam Propagation On Composite Materialsmentioning

confidence: 99%

Optical Material Characterisation of Prepreg CFRP for Improved Composite Inspection

2021

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Automated fibre layup techniques are often applied for the production of complex structural components. In order to ensure a sufficient component quality, a subsequent visual inspection is necessary, especially in the aerospace industry. The use of automated optical inspection systems can reduce the inspection effort by up to 50 %. Laser line scan sensors, which capture the topology of the surface, are particularly advantageous for this purpose. These sensors project a laser beam at an angle onto the surface and detect its position via a camera. The optical properties of the observed surface potentially have a great influence on the quality of the recorded data. This is especially relevant for dark or highly scattering materials such as Carbon Fiber Reinforced Plastics (CFRP). For this reason, in this study we investigate the optical reflection and transmission properties of the commonly used Hexel HexPly 8552 IM7 prepreg CFRP in detail. Therefore, we utilise a Gonioreflectometer to investigate such optical characteristics of the material with respect to different fibre orientations, illumination directions and detection angles. In this way, specific scattering information of the material in the hemispherical space are recorded. The major novelty of this research are the findings about the scattering behaviour of the fibre composite material which can be used as a more precise input for the methods of image data quality assessment from our previous research and thus is particularly valuable for developers and users of camera based inspection systems for CFRP components.

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Section: Reflection Scattering and Beam Propagation On Composite Materialsmentioning

confidence: 99%

Optical Material Characterisation of Prepreg CFRP for Improved Composite Inspection

2021

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“…This is especially so if the robot utilises point light sources for illumination or if the light source is located near to the robot's camera itself. Moreover, defects on reflective surfaces become only detectable from a particular direction from the angle of illumination [64]. Using matte surfaces for the amenities, as well as an ambient or diffuse light source, would help improve surface defect detection.…”

Section: Materials Selectionmentioning

confidence: 99%

Robot-Inclusive False Ceiling Design Guidelines

Yeo

Samarakoon

et al. 2021

Buildings

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False ceilings are often utilised in residential and commercial spaces as a way to contain and conceal necessary but unattractive building infrastructure, including mechanical, electrical, and plumbing services. Concealing such elements has made it difficult to perform periodic inspection safely for maintenance. To complement this, there have been increasing research interests in mobile robots in recent years that are capable of accessing hard-to-reach locations, thus allowing workers to perform inspections remotely. However, current initiatives are met with challenges arising from unstructured site conditions that hamper the robot’s productivity for false ceiling inspection. The paper adopts a top-down approach known as “Design for Robots”, taking into account four robot-inclusive design principles: activity, accessibility, safety, observability. Falcon, a class of inspection robots, was used as a benchmark to identify spatial constraints according to the four principles. Following this, a list of false ceiling design guidelines for each category are proposed.

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“…Yong-Ju Jeon et al [1] proposed the method of using dual-light switching lighting, using alternating black and white patterns to detect defects on steel surfaces. Zhang et al [2] proposed a machine vision system based on ray tracing, which translates the lamp array to shoot a large number of images and generates high-contrast detection images through image fusion. Feng et al [3] proposed a fast calibration method of camera response function based on high dynamic range imaging technology, adjusted chroma information through tone mapping algorithm, reduced local overexposure from the algorithm, and improved the clarity and contrast of synthetic images, but this method could not eliminate the influence of overexposure area.…”

Section: Introductionmentioning

confidence: 99%

Light-emitting diode planar array light source system for defect detection of highly reflective surface

Chen,

He,

Cai

et al. 2024

International Conference on Optics and Machine Vision (ICOMV 2024)

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For defect detection of objects with highly reflective surfaces, the diffuse light source has reflected light interference, which leads to the blurring of the edge of the defect area. In response to the problem that the problem that diffuse light source is difficult to highlight the surface defects of highly reflective objects, an LED planar array light source system is designed. It is composed of four tilted planar light sources, which can produce highly directional and high-brightness striped structured light on the target surface, thereby improving the gray value gap of the surface defects of highly reflective objects concerning the background. At the same time, to solve the light intensity change caused by the oblique off-axis illumination of the plane light source, the nonlinear constraint is used to optimize the illumination uniformity of the tilted non-focusing direction. Through software simulation and tracking, a stripe-structured light scheme with a period of 12.5 mm and an area of 200 mm×300 mm was designed, and the corresponding planar array light source system was built for defect detection experiments. The experimental results show that the accuracy rates of pits, scratches, and abrasions are 96.8%, 91.6%, and 95.8%, respectively.

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Simulation of a machine vision system for reflective surface defect inspection based on ray tracing

Cited by 4 publications

References 16 publications

Optical Material Characterisation of Prepreg CFRP for Improved Composite Inspection

Optical Material Characterisation of Prepreg CFRP for Improved Composite Inspection

Robot-Inclusive False Ceiling Design Guidelines

Light-emitting diode planar array light source system for defect detection of highly reflective surface

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