Company Filing History:
Years Active: 2006
Title: **Innovations by Florian Wiesinger in Magnetic Resonance Imaging**
Introduction
Florian Wiesinger, a prominent inventor based in Zurich, Switzerland, has made significant contributions to the field of magnetic resonance imaging (MRI). With his expertise and innovative approach, Wiesinger has developed a patent that addresses critical limitations in MRI technology.
Latest Patents
Wiesinger holds a patent titled “Inherent limitation of the reduction factor in parallel imaging as a function of field strength.” This patent describes a magnetic resonance imaging system that includes means for generating a main magnetic field with a specific strength, along with multiple magnetic resonance signal receiving positions facilitated by one or more receiver antennas. The system incorporates receiver antennas or coils, designed with a spatial sensitivity profile, allowing the acquisition of magnetic resonance signals at a predetermined degree of undersampling. Additionally, the system features means for reconstructing a magnetic resonance image from the set of undersampled signals and includes mechanisms for determining the degree of undersampling (R) in relation to the main field strength (B) and selected field-of-view (FOV).
Career Highlights
Florian Wiesinger is currently employed at Koninklijke Philips Corporation N.V., where he has been instrumental in advancing MRI technologies. His work in the field not only showcases his inventiveness but also highlights the potential for enhancing diagnostic imaging through innovative engineering solutions.
Collaborations
Wiesinger has collaborated with esteemed colleagues, including Klaas P. Pruessmann and Peter Boesiger. This collaboration has fostered an environment of shared knowledge and expertise, further propelling advancements in the MRI industry.
Conclusion
Florian Wiesinger's contributions to MRI technology reflect a dedication to innovation and improvement within the healthcare sector. With his patent and collaborative efforts, he continues to influence the future of medical imaging, enhancing the capabilities of MRI systems for better diagnostics and patient outcomes.