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Years Active: 2003-2020
Title: Kjetil Viggen: Innovator in Medical Imaging Technology
Introduction
Kjetil Viggen is a notable inventor based in Trondheim, Norway. He has made significant contributions to the field of medical imaging technology, holding three patents that showcase his innovative approach to enhancing imaging systems.
Latest Patents
Viggen's latest patents include a method and system for synchronizing caliper measurements in a multi-frame two-dimensional image and a motion mode image. This system allows for the selection of a frame from a multi-frame 2D image of a region of interest. It involves positioning a first caliper measurement on the selected frame and generating an anatomical M-mode image based on the direction of this measurement. The system automatically overlays a second caliper measurement on the anatomical M-mode image, ensuring that both measurements are presented simultaneously on a display system. Another patent focuses on methods and systems for physiologic structure and event marking. This medical imaging system includes image acquisition circuitry, a memory, and a processor that executes a physiologic marker program. This program obtains definitions for physiologic markers associated with events shown in a dataset image and superimposes these markers on a second dataset image.
Career Highlights
Viggen has worked with prominent companies in the medical technology sector, including GE Medical Systems Global Technology Company, LLC, and GE Medical Systems Global Technology, LLC. His work in these organizations has contributed to advancements in medical imaging technologies.
Collaborations
Throughout his career, Kjetil Viggen has collaborated with notable professionals in the field, including Steinar Bjærum and Johan Kirkhorn. These collaborations have further enriched his contributions to medical imaging.
Conclusion
Kjetil Viggen's innovative work in medical imaging technology has led to significant advancements in the field. His patents reflect a commitment to improving the accuracy and efficiency of medical imaging systems.