Company Filing History:
Years Active: 2012-2017
Title: Zygmunt Pizlo: Innovator in 3-D Image Processing
Introduction
Zygmunt Pizlo is a notable inventor based in Indianapolis, IN (US). He has made significant contributions to the field of image processing, particularly in the area of 3-D scene analysis. With a total of 4 patents to his name, Pizlo's work continues to influence advancements in technology.
Latest Patents
One of Pizlo's latest patents focuses on the figure-ground organization of 3-D scenes. This patent describes systems and methods for processing a pair of 2-D images. In one example, a stereoscopic set of images is converted into a collection of regions that represent individual 3-D objects in the pair of images. The system recovers the 3-D point P for each point p that appears in both images. It estimates the 3-D orientation of the floor plane, as well as the image capture planes and their height from the floor. The system identifies a collection B of points P that do not represent points on the floor and generates a projection C of B onto a plane parallel to the floor. It blurs the projection C and identifies peaks in the blurred image, then fits symmetric figures to the points in C around the identified peaks. Finally, the system projects the 3-D figures associated with the symmetric figures back onto the 2-D images.
Career Highlights
Zygmunt Pizlo is affiliated with the Purdue Research Foundation, where he continues to innovate and develop new technologies. His work has garnered attention for its practical applications in various fields, including computer vision and robotics.
Collaborations
Pizlo has collaborated with notable colleagues such as Yunfeng Li and Tadamasa Sawada. These partnerships have further enhanced his research and development efforts in the realm of image processing.
Conclusion
Zygmunt Pizlo's contributions to 3-D image processing exemplify the impact of innovative thinking in technology. His patents and collaborations reflect a commitment to advancing the field and improving the way we understand and interact with visual information.