Michelle Mary Milvich

Title: Michelle Mary Milvich: Innovator in Optical Encoder Technology

Introduction

Michelle Mary Milvich is a prominent inventor based in Seattle, WA, known for her significant contributions to optical encoder technology. With a total of nine patents to her name, she has made remarkable advancements in the field, particularly in developing systems that enhance measurement accuracy despite contamination and defects.

Latest Patents

Among her latest patents is the "Optical encoder having contamination and defect resistant signal processing." This invention features an encoder configuration that includes an illumination portion, a scale with a scale track, and signal processing electronics. The innovative design allows for accurate position measurements by analyzing signals and identifying the least-similar sub-portion signal subset, ensuring reliable performance even in challenging conditions.

Another notable patent is the "Absolute optical encoder with long range intensity modulation on scale." This invention introduces a dual-modulation scale track pattern that enhances the range-to-resolution ratio of the encoder. By varying dimensions of pattern elements or superimposing optical density variations, the encoder can produce long-range absolute signals without increasing the width of its components.

Career Highlights

Michelle Milvich is currently employed at Mitutoyo Corporation, where she continues to push the boundaries of optical measurement technology. Her work has been instrumental in developing solutions that address common challenges faced in the industry.

Collaborations

Throughout her career, Michelle has collaborated with talented individuals such as Joseph Daniel Tobiason and Vidya Venkatachalam. These partnerships have contributed to the successful development of her innovative patents.

Conclusion

Michelle Mary Milvich stands out as a leading inventor in the field of optical encoders, with her patents reflecting her commitment to innovation and precision. Her work not only advances technology but also sets new standards for accuracy in measurement systems.