Cybersecurity by Prediction of Time Synchronization Using Bayesian base Gradient Descent Approach

 

 

Arunachalam, Amutha ; K, Seetharaman ; Agarwal, Ashish

Abstract

Abstract

Time Commerce tends to be an effort that needs to be adapted to remove framework limitations and judicial intensifications to the inclusive digital economy in the form of a regional collaborative organisational system. "Date" and "Timestamp" reflect the root of the current term "Date Trade" in the cyber world The electricity grid shifts to the energy network to improve operating efficiency and reliability by developing advanced information and communication technology. However, the Internet also provides a range of entry points dependent on the internet, which produce additional vulnerabilities due to malicious cyber-attacks, thereby threatening nations' economic health. This paper proposes, a new mechanism to protect Critical Systems against malicious attacks, based on interval state predictors. In this paper using prediction-based approach for reducing the impact of cyber space attack. In prediction we use machine learning approach of Bayesian classifier by Bayesian approach forecast time synchronization according to universal time clock (UTC). In experiment analysis basic UTC, UTC and its likelihood and proposed approach on base of communication to improve substantially in proposed approach.

Keywords Time Commerce, Timestamp, Cyber Security, Indian Standard Time, Time Dissemination, Cyber-Physical Systems, Big Data, Bayesian Prediction, Gradient Descent.

 


Keyword(s)

Time Commerce, Timestamp, Cyber Security, Indian Standard Time, Time Dissemination, Cyber-Physical Systems, Big Data, Bayesian Prediction, Gradient Descent.

 

 


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