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Título
Design and Implementation of a Stereo Vision System on an Innovative 6DOF Single-Edge Machining Device for Tool Tip Localization and Path Correction
Autor
Facultad/Centro
Área de conocimiento
Título de la revista
Sensors
Número de la revista
9
Cita Bibliográfica
López-Estrada, L., Fajardo-Pruna, M., Sánchez-González, L., Pérez, H., Fernández-Robles, L., & Vizán, A. (2018). Design and implementation of a stereo vision system on an innovative 6DOF single-edge machining device for tool tip localization and path correction. Sensors (Switzerland), 18(9). https://doi.org/10.3390/S18093132
Editorial
MDPI
Fecha
2018-09-17
Resumen
[EN] In the current meso cutting technology industry, the demand for more advanced, accurate and cheaper devices capable of creating a wide range surfaces and geometries is rising. To fulfill this demand, an alternative single point cutting device with 6 degrees of freedom (6DOF) was developed. Its main advantage compared to milling has been the need for simpler cutting tools that require an easier development. To obtain accurate and precise geometries, the tool tip must be monitored to compensate its position and make the proper corrections on the computer numerical control (CNC). For this, a stereo vision system was carried out as a different approach to the modern available technologies in the industry. In this paper, the artificial intelligence technologies required for implementing such vision system are explored and discussed. The vision system was compared with commercial measurement software Dino Capture, and a dedicated metrological microscope system TESA V-200GL. Experimental analysis were carried out and results were measured in terms of accuracy. The proposed vision system yielded an error equal to ±3 µm in the measurement.
Materia
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SI
URI
DOI
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