Condition monitoring of precision machine tools based on real-time estimation of machine dynamics
Realization of high-precision thermal displacement compensation based on large-scale temperature measurement
Development of in-process measurement technology for geometric accuracy of precision machine tools
Development of sensor-integrated cemented carbide tools by the novel sintering process
RESEARCH DETAILS
Our research aims to realize a machining system that enables high-precision machining of materials with a high degree of freedom. The “copying principle,” which states that high-precision machining requires machine tools with higher precision, is the foundation of machining technology, but it also imposes many constraints, such as the size of the workpiece. We aim to create a new machining system that is not limited by the copying principle, based on background knowledge of materials processing technology and control engineering, with large-scale sensing technology as the core.