Company Filing History:
Years Active: 2007-2008
Title: The Innovations of Patrick O'Connor
Introduction
Patrick O'Connor is an accomplished inventor based in Sunnyvale, California. He has made significant contributions to the field of sensor technology, particularly in time-of-flight (TOF) systems. With a total of 2 patents, O'Connor's work focuses on enhancing image acquisition processes in various applications.
Latest Patents
One of O'Connor's latest patents is a method and system designed to correct motion blur and reduce signal transients in time-of-flight sensor systems. This innovation addresses the shutter time needed to acquire image data in TOF systems that capture consecutive images. By reducing this shutter time, the potential for relative motion during image capture is minimized. In one embodiment, pixel detectors are clocked with multi-phase signals, allowing for simultaneous integration of four signals to yield four phase measurements from four pixel detectors within a single shutter time unit. Another embodiment introduces super pixels, which increase the collection region by a factor 'k' compared to normal pixel detectors. Each super pixel is linked to multiple storage units and four-phase sequential signals, enhancing the efficiency of the measurement process. These advancements can dynamically reconfigure to mitigate the adverse effects of clock signal transients.
Career Highlights
O'Connor is currently employed at Canesta, Inc., where he continues to innovate in the field of sensor technology. His work has been pivotal in advancing the capabilities of TOF systems, making them more effective for various applications.
Collaborations
Throughout his career, O'Connor has collaborated with notable colleagues, including Ilhami H Torunoglu and Rajeev Nagabhirana. These partnerships have contributed to the development of cutting-edge technologies in the sensor domain.
Conclusion
Patrick O'Connor's contributions to the field of sensor technology, particularly through his innovative patents, have significantly impacted the efficiency of time-of-flight systems. His work continues to inspire advancements in image acquisition technologies.