A Hybrid Framework for Secure E-Commerce Transactions Using CCMDSS, ECC, and ZTA Principles

Abstract

Background:
E-commerce platforms face increasing cyber threats, hence the need for robust security processes. The combined CCMDSS, ECC, and ZTA bring about better safety, scalability, and performance for secure transactions.
Objectives:
The current study aims at developing a hybrid architecture for e-commerce security by combining CCMDSS, ECC, and ZTA to enhance security, speed, and scalability for transactions.
Methods:
The framework provides complete protection against attacks through the combination of ZTA for access control and identity verification, ECC for effective encryption, and CCMDSS for layered security.
Empirical Results:
The proposed hybrid architecture is better than stand-alone techniques as it delivers quicker transactions and further scalability and improved efficiency with security.
Conclusion:
In a nutshell, hybrid architecture as briefly discussed above was one simple answer for e-commerce transaction safety that also maximizes security while not debasing performance and adding machine learning for adaptive security is one additional enhancement.