Architecture of an Efficient Environment Management Platform for Experiential Cybersecurity Education

Architecture of an Efficient Environment Management Platform for Experiential Cybersecurity Education

Testbeds are widely used in experiential learning, providing practical assessments and bridging classroom material with real-world applications. However, manually managing and provisioning student lab environments consumes significant preparation time for instructors. The growing demand for advanced...

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Bibliographic Details
Main Authors: David Arnold, John Ford, Jafar Saniie
Format: Article
Language:English
Published: MDPI AG 2025-07-01
Series:Information
Subjects:
cybersecurity
education
experiential learning
automation
testbed
cyber range
Online Access:https://www.mdpi.com/2078-2489/16/7/604
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Summary:Testbeds are widely used in experiential learning, providing practical assessments and bridging classroom material with real-world applications. However, manually managing and provisioning student lab environments consumes significant preparation time for instructors. The growing demand for advanced technical skills, such as network administration and cybersecurity, is leading to larger class sizes. This stresses testbed resources and necessitates continuous design updates. To address these challenges, we designed an efficient Environment Management Platform (EMP). The EMP is composed of a set of 4 Command Line Interface scripts and a Web Interface for secure administration and bulk user operations. Based on our testing, the EMP significantly reduces setup time for student virtualized lab environments. Through a cybersecurity learning environment case study, we found that setup is completed in 15 s for each student, a 12.8-fold reduction compared to manual provisioning. When considering a class of 20 students, the EMP realizes a substantial saving of 62 min in system configuration time. Additionally, the software-based management and provisioning process ensures the accurate realization of lab environments, eliminating the errors commonly associated with manual configuration. This platform is applicable to many educational domains that rely on virtual machines for experiential learning.
ISSN:2078-2489

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