Authors:
Divya Kodi

Addresses:
Department of Cybersecurity, Truist Bank, California, United States of America.

Abstract:

The rapid development of digital ecosystems has established an interdependent web of devices, networks, and services. This research study discusses future cybersecurity solutions for protecting digital ecosystems in the context of AI-based threat detection, zero-trust architecture, and blockchain encryption. The study employs data gathered from cybersecurity threat databases and Symantec, Palo Alto Networks, and Cisco reports to test the effectiveness of such cybersecurity models. Statistical techniques were applied in data exploration collections, and output was depicted with tools like Python's matplotlib for graphical presentation and Graphviz for architectural diagrams. The research points out modern security frameworks, threat detection software, and proactive security controls organizations can use to fight cyber-attacks. Most prominent methods like zero-trust architecture, AI-based threat detection, and blockchain security frameworks are elaborated. Through analysis of modern developments in cybersecurity technologies, the paper emphasizes the need for adaptive and responsive countermeasures to meet new-age threats. The research establishes that using these measures ensures a significant decrease in cyber-attacks. The research suggests how to strengthen organizational security posture against potential cyber-attacks. The research concludes by providing guidelines for future cybersecurity innovations to make digital ecosystems robust and resilient.

Keywords: Cybersecurity Strategies; Digital Ecosystems; Threat Detection; Zero-Trust Architecture; Blockchain Security; Service Level Agreement (SLA); Access Control Layer; Storage and Data Layer.

Received on: 22/06/2024, Revised on: 25/09/2024, Accepted on: 19/10/2024, Published on: 03/12/2024

DOI: 10.69888/FTSCS.2024.000297

FMDB Transactions on Sustainable Computing Systems, 2024 Vol. 2 No. 4, Pages: 211-221

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