Company Filing History:
Years Active: 2021
Title: Kirill Arthurovich Gavrilyuk: Innovator in Magnetic Resonance Imaging Technology
Introduction
Kirill Arthurovich Gavrilyuk is a prominent inventor based in Moscow, Russia. He has made significant contributions to the field of medical imaging, particularly through his innovative work on magnetic resonance imaging (MRI) technology. His expertise and creativity have led to the development of advanced imaging devices that enhance diagnostic capabilities.
Latest Patents
Gavrilyuk holds a patent for a magnetic resonance imaging device and method for generating magnetic resonance images. This invention includes an acquisition unit designed to acquire an undersampled spectrum in k-space and a reconstruction unit that generates a target image based on this spectrum. The reconstruction unit features a first sub-reconstruction unit that performs initial reconstruction using a Split Bregman algorithm or approximate sparse coding. Additionally, a second sub-reconstruction unit decomposes the initially reconstructed spectrum into multiple frequency bands, allowing for dictionary learning reconstruction on images corresponding to these bands. The image generator then merges the reconstructed images to create a comprehensive target image.
Career Highlights
Gavrilyuk is currently employed at Samsung Electronics Co., Ltd., where he continues to push the boundaries of technology in the medical imaging sector. His work has not only advanced the capabilities of MRI devices but has also contributed to the overall improvement of patient care through enhanced imaging techniques.
Collaborations
Throughout his career, Gavrilyuk has collaborated with talented professionals, including Artem Sergeevich Migukin and Dmitry Korobchenko. These collaborations have fostered an environment of innovation and creativity, leading to groundbreaking advancements in the field.
Conclusion
Kirill Arthurovich Gavrilyuk is a key figure in the development of magnetic resonance imaging technology. His contributions have significantly impacted the medical field, showcasing the importance of innovation in improving diagnostic tools.