Company Filing History:
Years Active: 2013
Title: C Martin Schuster: Innovator in Noncontact Scanning Technology
Introduction
C Martin Schuster is a notable inventor based in Shorewood, MN (US). He has made significant contributions to the field of scanning technology, particularly with his innovative noncontact scanning system. His work has implications for various industries, enhancing the way objects are scanned and represented in three dimensions.
Latest Patents
C Martin Schuster holds a patent for a noncontact object scanning system. This system features a horizontal table that is rotatable on a vertical axis, equipped with one or more scanners positioned both above and below the table. The design allows radiant energy to pass through the table, which is constructed to be transparent or as a nonreflective grid. The controller of the system automatically steps the scanners through a scanning sequence, capturing segments of the object's exterior surface. The overlapping segments provide redundant data, effectively overcoming shadowing effects and enabling accurate alignment and merging into a comprehensive three-dimensional representation of the object. Additionally, the scanners can include color-responsive light detectors, allowing the final representation to portray both color and shape.
Career Highlights
C Martin Schuster is associated with Laser Design, Inc., where he applies his expertise in scanning technology. His innovative approach has positioned him as a key figure in the development of advanced scanning systems. His patent reflects his commitment to improving the accuracy and efficiency of object scanning.
Collaborations
C Martin Schuster collaborates with Gregory G Hetzler, contributing to the advancement of scanning technologies. Their combined efforts enhance the capabilities of the systems developed at Laser Design, Inc.
Conclusion
C Martin Schuster's contributions to noncontact scanning technology exemplify innovation in the field. His patented system represents a significant advancement, showcasing the potential for improved object scanning and representation.