David Joseph Koester

Title: Innovations of David Joseph Koester

Introduction

David Joseph Koester is an accomplished inventor based in Lafayette, Indiana. He has made significant contributions to the field of micro-electromechanical systems (MEMS) and structural integrity analysis. With a total of two patents to his name, Koester's work showcases his expertise and innovative spirit.

Latest Patents

Koester's latest patents include a highly-reliable micro-electromechanical system temperature sensor. This invention involves a MEMS sensor arrangement designed for wirelessly measuring temperatures. The arrangement features a multimorph sensor, a sensor coil coupled to the multimorph sensor, and a readout coil that is magnetically coupled to the sensor coil. This design allows for the energization of the sensor coil and provides a readout of the natural frequency of the multimorph sensor, enhancing the reliability of temperature measurements. Another notable patent is focused on damage detection using laser vibrometry. This patent outlines methods and apparatus for exciting a structure and determining its structural integrity. It employs nonlinear analysis to compare response datasets resulting from different excitation amplitudes, providing valuable insights into structural health.

Career Highlights

David Koester is affiliated with the Purdue Research Foundation, where he continues to advance his research and innovations. His work at this esteemed institution has allowed him to explore various applications of MEMS technology and structural analysis.

Collaborations

Koester has collaborated with notable colleagues, including Douglas Edward Adams and Dimitrios Peroulis. These partnerships have fostered a collaborative environment that enhances the development of innovative solutions in their respective fields.

Conclusion

David Joseph Koester's contributions to the field of MEMS and structural integrity analysis highlight his innovative capabilities and dedication to advancing technology. His patents reflect a commitment to improving measurement reliability and structural health assessment.