Company Filing History:
Years Active: 2020
Title: Michael Sitar: Innovator in Laser Scanning Technology
Introduction
Michael Sitar is a notable inventor based in Kitchener, Canada. He has made significant contributions to the field of laser scanning technology, holding a total of 2 patents. His work focuses on developing advanced methods and apparatuses that enhance the accuracy and efficiency of terrain scanning.
Latest Patents
One of Michael Sitar's latest patents is a laser scanning apparatus and method. This invention includes an apparatus and method for using a laser to scan the ground or a target from either an airborne or ground-based platform. The disclosed embodiments produce a 3-D elevation model of the terrain. The apparatus features a pulsed laser, a receiver that detects and amplifies the pulse reflected by objects on the ground, and electronics that measure the time of flight of the optical pulse. This information is used to calculate the slant range to the target. The technical advantages of this invention include the ability to avoid blind zones, ensuring that no laser shots are wasted. Additionally, for airborne applications, the apparatus can maintain a constant swath width or constant spot spacing, regardless of aircraft altitude or ground terrain elevation.
Career Highlights
Michael Sitar is currently employed at Teledyne Digital Imaging, Inc., where he continues to innovate in the field of imaging technology. His work has been instrumental in advancing laser scanning techniques, which have applications in various industries, including surveying and environmental monitoring.
Collaborations
Michael has collaborated with talented coworkers such as Chris Verheggen and Joe Liadsky. Their combined expertise contributes to the innovative projects at Teledyne Digital Imaging, Inc.
Conclusion
Michael Sitar is a prominent figure in the field of laser scanning technology, with a focus on creating efficient and accurate scanning methods. His contributions through patents and collaborations continue to shape the future of imaging technology.