Company Filing History:
Years Active: 2006-2014
Title: **Innovator Spotlight: Paul M Fallara**
Introduction
Paul M Fallara is a prominent inventor based in Columbus, OH, recognized for his contributions to the field of material processing technologies. With a total of 12 patents to his name, his work primarily focuses on creating innovative systems that enhance the efficiency of surface material removal in inhabitable structures.
Latest Patents
Among his latest patents, Fallara has developed a **Manipulation Apparatus for System That Removes Material from a Surface of a Structure**. This invention features a manipulation system that controllably moves a head relative to a surface for irradiating it with energy waves. It incorporates a dual-axis positioning mechanism that allows for precise movement while minimizing disruption to the surroundings.
In addition, his **Method and Apparatus for Material Processing** emphasizes a laser base unit that utilizes laser technology to process structural surfaces. This apparatus not only effectively removes material but also ensures that activities within the structure are minimally interrupted. The inclusion of a user-responsive controller enhances the operability of the system.
Career Highlights
Paul M Fallara has made significant strides in technology during his career, working with innovative systems that marry practicality with advanced engineering solutions. His expertise in handling laser technology for surface manipulation reflects his commitment to advancing the capabilities of material processing.
Collaborations
At Loma Linda University, Fallara collaborates with esteemed colleagues, including Paul Edward Denney and Jay R Eastman. Together, they aim to push the boundaries of what is possible in the realm of material processing, contributing to groundbreaking research and development.
Conclusion
With a solid portfolio of patents and a history of impactful collaboration, Paul M Fallara stands as a notable figure in the field of invention. His latest innovations promise to enhance the efficiency and precision of material processing, possibly reshaping how such tasks are approached in various industries.