Company Filing History:
Years Active: 2006
Title: The Innovative Mind of Troy Howard Farncombe
Introduction
Troy Howard Farncombe is an accomplished inventor based in Vancouver, Canada, recognized for his significant contribution to the field of imaging technology. With a focus on measuring properties that vary across time and space, Farncombe has developed groundbreaking methods that advance our understanding of radiological imaging and analysis.
Latest Patents
Farncombe holds one notable patent titled "Method and apparatus for producing a representation of a measurable property which varies in time and space, for producing an image representing changes in radioactivity in an object and for analyzing tomography scan images." This inventive method outlines an apparatus that incorporates a receiver to collect multiple sets of measurement values over time, which is essential for producing detailed representations of properties within an object. The processor circuit, integral to this invention, is programmed to process these values effectively, ensuring accuracy and relevance in imaging.
Career Highlights
Farncombe's dedication to innovation has led him to work at the University of British Columbia, where he applies his expertise in imaging technologies. His research has not only resulted in valuable patents but also contributes to the advancement of medical imaging and diagnostics.
Collaborations
Throughout his career, Farncombe has collaborated with talented individuals such as Anna Malgorzata Celler and Dominikus Noll. Working alongside these professionals has enhanced the scope and impact of his research, allowing for interdisciplinary approaches to complex challenges in imaging technology.
Conclusion
Troy Howard Farncombe is a notable figure in the landscape of innovation, particularly within the realm of imaging technology. His patent serves as a testament to his ingenuity and commitment to advancing the field. As he continues his work at the University of British Columbia, the potential for future innovations remains promising.