Mechanism for Cloud Computing Enviroment's Reliable Au-thenticated Token Handling

Abstract

Cloud computing (CC) has matured in terms of dependability and effectiveness, which has led to the migration of many applications to the cloud. Three-factor Multilateral Authenticity and Knowledge Acceptance (MAKA) mechanisms for multi-server systems are gaining a lot of interest for their convenience and security. Although there are many extant three-factor MAKA protocols, none of them give a rigorous secure guarantee, making them vulnerable to numerous assaults on other procedures in the chain. And most three-factor MAKA mechanisms lack adaptive cancellation mechanisms, preventing malevolent users from being quickly removed. We present a three-factor MAKA protocol with a proven adaptive reversible evidence in the arbitrary source to overcome these issues. This method uses Schnorr identities to enable vibrant administration by the client. In multi-server setups, our procedure is capable of meeting a wide range of requirements. For intelligent systems with low processing power, the suggested method is a viable option. The entire computation code demonstrates the system's viability.