Company Filing History:
Years Active: 2013
Title: Innovations by Yoshizo Sato: Pioneering Secure Data Transmission
Introduction
Yoshizo Sato is a notable inventor from Katano, Japan, recognized for his contributions to secure data transmission technologies. With a single patent to his name, Sato has demonstrated his expertise in optimizing the encryption of license data, ensuring both security and efficiency in data handling.
Latest Patents
Yoshizo Sato's patent, titled "Method for transmission/reception of contents usage right information in encrypted form, and device thereof," addresses critical challenges in data security. The invention employs a symmetric key encryption algorithm, which minimizes computational demands compared to conventional public key encryption methods. The process involves a license-data transmitter that encrypts license data using two keys supplied by a license-data receiver, enabling high-speed processing while maintaining robust security even during repeated data access operations.
Career Highlights
Sato is currently associated with Sanyo Electric Co., Ltd., where he has applied his innovative thinking to enhance the security of data transmission systems. His work emphasizes the importance of developing solutions that not only safeguard sensitive information but also facilitate user-friendly operations, making significant strides in the field of encryption technology.
Collaborations
Throughout his career, Yoshizo Sato has collaborated with accomplished professionals, including Yoshihiro Hori and Keiji Horiuchi. These partnerships reflect a commitment to advancing research and development in secure communication technologies, contributing to Sanyo Electric's reputation as a leader in innovation.
Conclusion
Yoshizo Sato's innovation in the realm of encrypted data transmission showcases the vital intersection of security and efficiency in modern technology. His contributions are essential for industries that rely on secure data exchange, and his ongoing work at Sanyo Electric Co., Ltd. promises to further enhance the reliability of information transmission systems.