Daniel Stapf

Title: The Innovative Contributions of Daniel Stapf

Introduction

Daniel Stapf is a notable inventor based in Unterschleißheim, Germany. He has made significant contributions to the field of dynamic modeling and imaging technologies. With a total of two patents to his name, Stapf's work focuses on enhancing the accuracy and efficiency of imaging methods.

Latest Patents

One of Stapf's latest patents is titled "Method and apparatus for correcting dynamic models obtained by tracking methods." This invention relates to a method and apparatus designed to correct dynamic models of moving structures that are obtained through tracking methods. The process involves several steps, including providing a time series of images of the moving structure, determining a position time section in the images, and comparing a computer graphical object with the surrounding image content to correct the dynamic model.

Another significant patent is the "Method for generating a motion-corrected 3D image of a cyclically moving object." This invention outlines a device and method for creating a motion-corrected 3D image using an ultrasound probe. The method includes acquiring a set of sub-images of the object, registering these sub-images with a 3D reference image, and reconstructing a motion-corrected 3D image from the motion-corrected sub-images.

Career Highlights

Daniel Stapf has worked with prominent companies in the imaging and technology sectors, including Tomtec Imaging Systems GmbH and Koninklijke Philips Corporation. His experience in these organizations has contributed to his expertise in developing innovative imaging solutions.

Collaborations

Some of Stapf's notable coworkers include Marcus Schreckenberg and Alexander Rossmanith. Their collaboration has likely played a role in advancing the projects they have worked on together.

Conclusion

Daniel Stapf's contributions to the field of dynamic modeling and imaging technologies are noteworthy. His innovative patents reflect his commitment to improving imaging methods and enhancing the accuracy of dynamic models. His work continues to influence advancements in the industry.