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个人简介
My group's research focuses on the development of measuring systems that can provide both geometry and 3D surface structured data of complex components in the production line in real time, without contact and measured with high precision. We use state-of-the-art optical measurement techniques such as digital holography or speckle correlation combined with extremely fast evaluation methods. In this way, optical systems are created which allow it for the first time, e.g. B Formal deviation in gearing geometries to be recorded superficially within a few seconds, to measure workpieces highly accurately in the machine tool or to detect smallest component deformations and cracks on components under load.
Research
For production control, Fraunhofer IPM develops optical systems and imaging methods which can be used to analyze surfaces and 3D structures in production and to control processes. The systems measure fast and accurately so that small defects or impurities can be detected, even at high production speeds. This means that 100 percent production control in real-time is possible against the backdrop of the fourth industrial revolution.
A wide range of methods is used, including digital holography, infrared reflection spectroscopy and fluorescence methods, combined with fast, low-level image and data processing. The systems are used in applications such as forming technology in the automotive industry and for quality control in medical products.
Our 2D and 3D inline measuring systems supply high precision measurements in real-time and under hardest production conditions, for example for controlling sensitive production processes. This is achieved by a combination of optical measuring techniques with extremely fast data processing. Our turnkey systems for surface analysis use fluorescence measurement techniques as well as infrared reflection spectroscopy and laser-induced breakdown spectroscopy. In systems engineering Fraunhofer IPM relies on its long-standing experience in optical units, image recording and image processing.
Research
For production control, Fraunhofer IPM develops optical systems and imaging methods which can be used to analyze surfaces and 3D structures in production and to control processes. The systems measure fast and accurately so that small defects or impurities can be detected, even at high production speeds. This means that 100 percent production control in real-time is possible against the backdrop of the fourth industrial revolution.
A wide range of methods is used, including digital holography, infrared reflection spectroscopy and fluorescence methods, combined with fast, low-level image and data processing. The systems are used in applications such as forming technology in the automotive industry and for quality control in medical products.
Our 2D and 3D inline measuring systems supply high precision measurements in real-time and under hardest production conditions, for example for controlling sensitive production processes. This is achieved by a combination of optical measuring techniques with extremely fast data processing. Our turnkey systems for surface analysis use fluorescence measurement techniques as well as infrared reflection spectroscopy and laser-induced breakdown spectroscopy. In systems engineering Fraunhofer IPM relies on its long-standing experience in optical units, image recording and image processing.
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APPLIED OPTICSno. 7 (2024): B32-B41
Practical Holography XXXVIII: Displays, Materials, and Applications (2024)
Practical Holography XXXVIII: Displays, Materials, and Applications (2024)
Applied opticsno. 7 (2024): B32-B41
Optica Imaging Congress (3D, COSI, DH, FLatOptics, IS, pcAOP) (2023)
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QUANTUM TECHNOLOGIES 2022 (2022)
Digital Holography and 3-D Imaging 2022 (2022)
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