Company Filing History:
Years Active: 2016
Title: Mutsuaki Gotoh: Innovator in Vehicle Control Technology
Introduction
Mutsuaki Gotoh is a notable inventor based in Chita-gun, Japan. He has made significant contributions to the field of vehicle control technology, holding 2 patents that focus on improving fuel consumption efficiency in vehicles. His work is instrumental in advancing the capabilities of modern automotive systems.
Latest Patents
Mutsuaki Gotoh's latest patents include a vehicle control apparatus that computes fuel consumption changes for various travel modes. This apparatus features a control section that calculates engine efficiency and the combined efficiency of a motor generator and an inverter. By analyzing engine power and ideal fuel consumption, the system can determine the per-unit-electric-power fuel consumption decrease or increase. Another patent describes a vehicle control apparatus that selects between different travel modes, such as EV travel mode and engine travel mode, based on comparisons of power costs and energy surplus. This innovation aims to enhance fuel consumption efficiency by selecting the most appropriate travel mode according to the vehicle's travel conditions.
Career Highlights
Mutsuaki Gotoh is currently employed at Denso Corporation, a leading global automotive supplier. His work at Denso has allowed him to focus on innovative solutions that address the challenges of fuel efficiency in vehicles. His contributions have been vital in the development of advanced vehicle control systems.
Collaborations
Mutsuaki Gotoh has collaborated with notable colleagues, including Takashi Satoh and Masanori Sugiura. These collaborations have fostered a creative environment that encourages the development of cutting-edge technologies in the automotive sector.
Conclusion
Mutsuaki Gotoh's work in vehicle control technology exemplifies the importance of innovation in enhancing fuel efficiency. His patents reflect a commitment to advancing automotive technology and improving environmental sustainability.