Hsiao-Chen Ho

Title: Hsiao-Chen Ho: Innovator in Tool Machine Technology

Introduction

Hsiao-Chen Ho is a prominent inventor based in Taoyuan, Taiwan. He has made significant contributions to the field of tool machine technology, holding a total of 3 patents. His innovative work focuses on enhancing the efficiency and functionality of machine tools.

Latest Patents

Hsiao-Chen Ho's latest patents include a "Tool Machine Servo Control Simulation Device and Establishing Method of Structure Model." This invention provides a tool machine servo control simulation device that comprises a structure model and a processor. The structure model features a position function, a velocity function, and a drive property parameter. The processor includes a control signal receiver and a simulation component, which generates a simulation path in response to a servo command.

Another notable patent is the "Machine Tool Feed Drive Design System and Method Thereof." This system includes a component database, a detection module, a load condition estimation module, and a calculation module. The component database stores specification data of various feed drive components, while the detection module captures operation signals from a machine tool during its machining process. The load condition estimation module calculates actual load conditions, and the calculation module selects optimized feed drive specifications based on these conditions.

Career Highlights

Hsiao-Chen Ho is affiliated with the Industrial Technology Research Institute, where he continues to develop innovative solutions in machine tool technology. His work has significantly impacted the efficiency and design of feed drive systems.

Collaborations

Hsiao-Chen Ho collaborates with esteemed colleagues such as Chien-Chih Liao and Jen-Ji Wang, contributing to advancements in their field.

Conclusion

Hsiao-Chen Ho's contributions to tool machine technology through his patents and collaborative efforts highlight his role as an influential inventor. His work continues to shape the future of machine tool design and functionality.