Company Filing History:
2 out of 1,799 
1 out of 134 
1 out of 92 
Years Active: 2003-2012
Title: Fumiaki Hara: Innovator in Image Processing Technology
Introduction
Fumiaki Hara is a notable inventor based in Tokyo, Japan. He has made significant contributions to the field of image processing, holding a total of 4 patents. His work focuses on enhancing image generation and processing methods, particularly in virtual three-dimensional spaces.
Latest Patents
Hara's latest patents include an image generating program, a storage medium, an image processing method, and an image processing device. These innovations are designed to enable detailed image control while minimizing resource wastage. The system calculates the area of a movement path within a viewing frustum and determines whether moving objects should be generated. When generation is warranted, the information about these objects is stored, allowing for the renewal of their positions and the generation of images based on this data.
Another significant patent addresses effective image processing in virtual three-dimensional spaces. This invention allows for the application of effects that maintain consistency in all directions within a 360-degree view around an object. The method involves displaying a three-dimensional model that includes the viewpoint and the object, generating an image as viewed from the specified perspective.
Career Highlights
Fumiaki Hara has worked with prominent companies in the gaming and technology sectors, including Sony Computer Entertainment Inc. and Sega Corporation. His experience in these organizations has contributed to his expertise in image processing technologies.
Collaborations
Hara has collaborated with notable colleagues such as Hideaki Kikukawa and Hajime Saito. Their combined efforts have further advanced the field of image processing.
Conclusion
Fumiaki Hara's innovative work in image processing technology has led to the development of several patents that enhance the capabilities of image generation and processing. His contributions continue to influence advancements in virtual three-dimensional spaces.