Company Filing History:
Years Active: 2017
Title: **Mitsuru Kaitou: Innovator in Active Noise Reduction Technologies**
Introduction
Mitsuru Kaitou is a distinguished inventor located in Osaka, Japan. With a focus on advancements in noise control technologies, he holds two notable patents, showcasing his contributions to the field of active noise reduction.
Latest Patents
Mitsuru Kaitou's latest innovations include an active noise reduction device and method. The active noise reduction device utilizes a control block that determines the level of a reference signal detected by a level detection unit. When the signal level is low, the control block decreases the level of the cancel signal, effectively suppressing the generation of abnormal sounds, even in low noise conditions. Additionally, this device leverages a secondary noise source that generates secondary noise alongside an error signal source, which outputs an error signal corresponding to the residual sound caused by the interference between the secondary noise and the original noise. Furthermore, a μ-adjustment unit calculates a step-size parameter crucial for updating a filter coefficient of an adaptive filter, enhancing its effectiveness in noise cancellation.
Career Highlights
Mitsuru Kaitou currently works at Panasonic Intellectual Property Management Co., Ltd., where he contributes to the company's innovative solutions. His expertise in noise reduction technologies positions him as a key figure within the organization, driving progress in sound management.
Collaborations
Throughout his career, Mitsuru has collaborated with esteemed colleagues, including Mitsuhiro Tani and Toshiyuki Funayama. These collaborations have enriched his projects and enabled the development of cutting-edge solutions in the realm of noise reduction.
Conclusion
Mitsuru Kaitou's dedication to innovation and his significant contributions to the field of active noise reduction technology make him a prominent inventor in today's technological landscape. His patents reflect a commitment to enhancing sound environments, reinforcing his status as a leader in this essential area of research.