Company Filing History:
Years Active: 2018
Title: Innovations of Wuqiang Shen in Multivariate Public Key Signature Systems
Introduction
Wuqiang Shen is a notable inventor based in Guangzhou, China. He has made significant contributions to the field of cryptography, particularly in the development of multivariate public key signature systems. His innovative approach has led to the creation of a unique patent that enhances the security and efficiency of digital signatures.
Latest Patents
Wuqiang Shen holds a patent for a "Multivariate public key signature/verification system and signature/verification method." This system includes a signature module and a verification module. The signature module is composed of several components, including a processor, first affine transformation inversion component, isomorphic inversion component, trapdoor component, isomorphic component, and second affine transformation inversion component. These components work sequentially on a message to be signed, generating solutions processed by the trapdoor component. A randomly selected solution is then transmitted to the isomorphic and second affine components for further processing, resulting in a signature that is sent along with the message to the processor. The verification module, which also contains a processor, utilizes a public key transformation component to validate the signature against the original message stored in memory.
Career Highlights
Wuqiang Shen is affiliated with the South China University of Technology, where he continues to advance his research in cryptography and related fields. His work has garnered attention for its practical applications in enhancing digital security.
Collaborations
Wuqiang Shen collaborates with Shaohua Tang, contributing to the development of innovative solutions in their field.
Conclusion
Wuqiang Shen's contributions to the multivariate public key signature systems represent a significant advancement in cryptographic technology. His innovative patent showcases his expertise and commitment to enhancing digital security.