Company Filing History:
Years Active: 2007-2013
Title: Minoru Taniyama: A Pioneer in Imaging Technologies
Introduction
Minoru Taniyama, an innovative inventor from Saitama, Japan, has made significant contributions to the field of imaging technology. With a remarkable portfolio of 18 patents, Taniyama continues to push the boundaries of optical engineering and its applications in modern technology.
Latest Patents
One of Taniyama's notable inventions is an imaging lens, imaging apparatus, and information terminal apparatus. This invention addresses the formation of optical images through an imaging lens designed so that the defocus modulation transfer function (MTF) peak position is optimized for various image heights. Another recent patent focuses on an imaging lens, camera module, and imaging apparatus, which features a compact yet high-performance optical system capable of delivering high-resolution image signals. This innovative lens assembly utilizes a combination of positively and negatively powered lenses to achieve its advanced imaging capabilities.
Career Highlights
Throughout his career, Taniyama has worked with leading companies in the imaging sector, including Fujinon Corporation and Fujifilm Corporation. His work at these organizations has facilitated the development of groundbreaking imaging solutions, impacting both consumer electronics and professional imaging applications.
Collaborations
Taniyama has collaborated with esteemed colleagues such as Kenichi Sato and Kazuya Yoneyama, contributing to a collaborative environment that fosters innovation and advancement in imaging technology. Their collective expertise has played a crucial role in the successful development of various optical systems.
Conclusion
Minoru Taniyama's contributions to imaging technology are profound, with his patents reflecting a commitment to innovation and excellence. His work continues to influence the industry, making him a prominent figure in the realm of optical inventions. As technology evolves, Taniyama's contributions will likely shape the future of imaging and optical applications.