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Where Research Meets Industry - AIT Excellence at the European Machine Vision Forum
which employs Inline Computational Imaging (ICI) technology. This system enables simultaneous 2D and 3D inspection of moving parts with resolutions down to the μm-range, addressing challenges in industrial
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Decoding the 3D world: How Spatial Sensing and AI are Revolutionizing Robotics
and object manipulation might seem trivial to a human, however, automating these tasks within diverse 3D spaces and over time is still in the focus of today’s research. In his presentation, Beleznai discusses
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ici:microscopy wins Best Demo Award
and difficult materials. Under the title "Inline Microscopic 3D Shape Reconstruction", the AIT researchers presented the optical inline 3D inspection system ici:microscopy, which is designed for industrial [...] to simultaneously capture detailed 3D surface structures and 2D object textures. The integration of light field and photometric stereo provides a holistic approach to 3D reconstruction," says Doris Antensteiner [...] standard for precise and efficient 3D inspection at the micro level. "ici:microscopy is the result of a research project in computer vision that aims to enable precise 3D reconstructions at the micro level
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Visit us at the Control trade fair in Stuttgart
trade fair, AIT researchers will present their new approach ici:microscopy for simultaneous 2D and 3D inspection of surface structures. Its applications are versatile, e.g. in electronics man
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At the forefront of innovation
further development of 2D and 3D inspection methods. The tiniest defects at 40 million 3D pixels per second The new ici:microscopy technology presented by the AIT experts is an inline 3D microscopy method based [...] Systems (HVS) presented their innovative and future-oriented 3D measurement technology for quality inspection in manufacturing processes. The inline 3D microscopy method ici:microscopy is suitable for the inspection [...] resolutions (up to 700 nm). It uses the natural transport motion of the object for simultaneous 2D and 3D surface detection under different viewing and illumination directions, mimicking human inspection
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