Company Filing History:
Years Active: 2008
Title: Innovations of Robert Christopher Twiney
Introduction
Robert Christopher Twiney is a notable inventor based in Somerset, GB. He has made significant contributions to the field of object detection through his innovative methods and systems. His work has led to the development of a patent that enhances the ability to detect the proximity of objects, showcasing his expertise and creativity in technology.
Latest Patents
Twiney holds a patent for "Methods and systems for detecting proximity of an object." This patent describes a method that includes receiving a first beam of radiation from a first field of view directed onto a first detector and a second beam of radiation from a second field of view directed onto a second detector. The second beam is angularly displaced from the first beam by a predetermined amount. The system generates a first output signal from the first detector, which correlates to the energy received from the first beam, and a second output signal from the second detector, which correlates to the energy received from the second beam. A proximity signal is then outputted, indicating the proximity of an object when the differential between the first and second output signals exceeds a predetermined threshold. This innovative approach has the potential to improve various applications in sensing technology.
Career Highlights
Twiney is currently associated with GE Infrastructure Sensing, Inc., where he continues to develop and refine his inventions. His work at this company has allowed him to collaborate with other talented professionals in the field, further enhancing his contributions to technology.
Collaborations
One of his notable coworkers is Ganesh Chandan Gangadharan, with whom he has likely shared insights and expertise in their respective projects.
Conclusion
Robert Christopher Twiney is a distinguished inventor whose work in proximity detection systems exemplifies innovation in technology. His patent reflects a significant advancement in the field, and his ongoing contributions at GE Infrastructure Sensing, Inc. continue to shape the future of object detection.