Company Filing History:
Years Active: 2012
Title: Yuehong Wang: Innovator in 3D Model Retrieval Technology
Introduction
Yuehong Wang, an accomplished inventor based in Beijing, China, has made significant contributions to the field of three-dimensional model retrieval. With a unique approach to model processing and retrieval, her work enhances the way three-dimensional models are utilized in various applications.
Latest Patents
Yuehong Wang holds a patent for an "Apparatus and method for three-dimensional model retrieval." This innovative technology comprises a model normalizing unit that aligns the main axis directions of a three-dimensional model with the coordinate axes of a system coordinate system. It also includes a barycenter alignment feature, a two-dimensional image generating unit for creating images from multiple projections, and a model describing unit that generates a model descriptor from the resulting images. The retrieving unit then uses this descriptor to find the most matching three-dimensional model from a database based on user input.
Career Highlights
Currently, Yuehong Wang works at Fujitsu Corporation, a leading technology company known for its advancements in computing and telecommunications. Throughout her career, she has been recognized for her pioneering efforts in enhancing three-dimensional technology and improving model retrieval processes.
Collaborations
Within her role at Fujitsu Corporation, Yuehong collaborates with esteemed colleagues such as Rujie Liu and Takayuki Baba. These professionals contribute their expertise in various technological areas, enabling innovative advancements in three-dimensional modeling and retrieval.
Conclusion
Yuehong Wang stands out as a prominent figure in the field of three-dimensional model retrieval. Her inventive approach and the valuable patent she holds reflect her commitment to driving innovation in technology. As the demand for advanced model retrieval solutions grows, her contributions promise to play a crucial role in shaping the future of this dynamic field.