Company Filing History:
Years Active: 2021-2023
Title: Innovations by Inventor Mengde Zhou
Introduction
Mengde Zhou is a notable inventor based in Liaoning, China. He has made significant contributions to the field of measurement and vibration control, holding a total of 2 patents. His work focuses on enhancing precision in 3D measurement systems and improving the stability of aircraft models during wind tunnel tests.
Latest Patents
One of Mengde Zhou's latest patents is a "3D measurement model and spatial calibration method based on 1D displacement sensor." This innovation proposes a 3D measurement system utilizing a fixed 1D displacement sensor. It establishes a spatial measurement model and formulates spatial calibration constraint equations to enhance measurement precision. The method addresses inaccuracies caused by sensor extrinsic parameter errors, thereby improving the overall reliability of 3D measurements.
Another significant patent is the "Multi-dimensional vibration control method for the model of strut tail-supported aircraft." This method employs piezoelectric ceramic actuators in wind tunnel tests to control vibrations. By measuring pitch and yaw acceleration, the system determines the main vibration vector of the aircraft model. The introduction of inertia helps manage dynamic bending moments, enhancing the stability and reliability of the active vibration control system.
Career Highlights
Mengde Zhou is affiliated with Dalian University of Technology, where he continues to advance his research and innovations. His work has garnered attention for its practical applications in both measurement technology and aerospace engineering.
Collaborations
Mengde Zhou collaborates with esteemed colleagues such as Wei Liu and Bing Liang, contributing to a dynamic research environment that fosters innovation and development.
Conclusion
Mengde Zhou's contributions to the fields of measurement and vibration control exemplify the impact of innovative thinking in technology. His patents reflect a commitment to enhancing precision and reliability in engineering applications.