USF inventors have devised a cryptographic mechanisms with extended properties that can achieve scalability and non repudiation in a highly efficient manner. The main idea is to achieve optimal efficiency and post quantum security of symmetric key techniques, while providing compromise resiliency, conditional non repudiation and fault tolerance distributed verification. The architecture has a broad range of application in digital forensic auditing, medical analytics and applications that require highly sensitive data to be accessed and verified only by valid parties in a secure and efficient manner.
Environment for Implementing SOBAP techniques