Company Filing History:
Years Active: 1994-2008
Title: Innovations in Medical Imaging: The Contributions of Ernstpeter Ruehrnschopf
Introduction
Ernstpeter Ruehrnschopf, an accomplished inventor based in Erlangen, Germany, has made significant contributions to the field of medical imaging. With a total of three patents to his name, Ruehrnschopf has demonstrated a commitment to enhancing diagnostic technologies and improving patient outcomes.
Latest Patents
Among his notable inventions is a patent titled "Device and method for computer tomography." This innovative device allows users to overlay an uncorrected volume image with a correction volume image by selecting a weighting function. This capability enables manual corrections to be made even after interference effects, such as x-ray scattering or beam hardening, have been addressed. Another important patent is the "X-ray examination system with identification of and compensation for subject-scattered radiation." This system features a detector array with multiple elements and includes a data correction computer that numerically determines and corrects subject-scattered radiation, enhancing the accuracy of x-ray examinations.
Career Highlights
Ernstpeter Ruehrnschopf currently works with Siemens Aktiengesellschaft, a global leader in medical technology. His role at the company places him at the forefront of innovation in imaging systems, where he collaborates on projects that push the boundaries of what's possible in healthcare technology.
Collaborations
Throughout his career, Ruehrnschopf has worked alongside esteemed colleagues such as Bernd Ohnesorge and Klaus Klingenbeck-Regn. These collaborations have not only enriched his work but also contributed to the advancement of medical imaging technologies.
Conclusion
With three patents and ongoing work at Siemens Aktiengesellschaft, Ernstpeter Ruehrnschopf has established himself as a leading figure in the field of medical imaging. His innovative contributions, particularly in computer tomography and x-ray examination systems, continue to shape the future of diagnostic technology, ultimately enhancing patient care and outcomes.