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Autonomic Zero Trust Framework for Network Protection

With the technological improvements, the number of Internet connected devices is increasing tremendously. We also observe an increase in cyberattacks since the attackers want to use all these interconnected devices for malicious intention. Even though there exist many proactive security solutions, it is not practical to run all the security solutions on them as they have limited computational resources and even battery operated. As an alternative, Zero Trust Architecture (ZTA) has become popular is because it defines boundaries and requires to monitor all events, configurations, and connections and evaluate them to enforce rejecting by default and accepting only if they are known and accepted as well as applies a continuous trust evaluation. In addition, we need to be able to respond as quickly as possible, which cannot be managed by human interaction but through autonomous computing paradigm. Therefore, in this work, we propose a framework that would implement ZTA using autonomous computing paradigm. The proposed solution, Autonomic ZTA Management Engine (AZME) framework, focusing on enforcing ZTA on network, uses a set of sensors to monitor a network, a set of user-defined policies to define which actions to be taken (through controller). We have implemented a Python prototype as a proof-of-concept that checks network packets and enforce ZTA by checking the individual source and destination based on the given policies and continuously evaluate the trust of connections. If an unaccepted connection is made, it can block the connection by creating firewall rule at runtime.

Identiferoai:union.ndltd.org:unt.edu/info:ark/67531/metadc1944358
Date05 1900
CreatorsDurflinger, James
ContributorsTunc, Cihan, Morozov, Kirill, Ji, Yuede
PublisherUniversity of North Texas
Source SetsUniversity of North Texas
LanguageEnglish
Detected LanguageEnglish
TypeThesis or Dissertation
FormatText
RightsPublic, Durflinger, James, Copyright, Copyright is held by the author, unless otherwise noted. All rights Reserved.

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