Bridging Theory and Practice in Military Education Through Advanced Technologies

Authors

DOI:

https://doi.org/10.34190/ecgbl.18.1.2648

Keywords:

simulation, artillery, taining, VR, AR

Abstract

This study presents a comprehensive examination of the developmental trajectory and operational advancement of a pioneering military simulation apparatus explicitly engineered to facilitate the seamless integration of joint fire support principles within the ambit of military education, with a specific focus on artillery students. The Virtual Reality (VR) and Augmented Reality (AR) technology provided by industry leaders such as Microsoft and Meta present solutions for interdisciplinary pursuits situated at the confluence of emergent technologies and contemporary military instructional methodologies. Central to the efficacy of this endeavour is the incorporation of meticulously crafted virtual and augmented reality models of authentic military equipment to imbue the simulation experience with unparalleled realism and fidelity to the principles of artillery fires. Collaborative ventures with private enterprises have facilitated the production of a simulator characterized by its gamification elements and unparalleled verisimilitude, enhancing its efficacy as an educational tool. Augmented by spatial intelligence gleaned from Unmanned Aerial Vehicle (UAV) sensors, the simulation framework can be further enriched by integrating true-to-life topographic representations meticulously synthesized by amalgamating laser scanning methodologies. Positioned as an indispensable cornerstone within the academic purview of the esteemed Department of Fire Support at the University of Defence, this initiative aspires to impart foundational knowledge and cultivate a proactive ethos of inquiry and engagement amongst the students. Furthermore, the simulator is a pivotal instrument for military training, offering a risk-free environment devoid of the hazards associated with live artillery fire exercises. By mitigating financial burdens and other logistical constraints inherent in conventional training methodologies, this innovative simulation apparatus represents a paradigm shift in contemporary military education and training practices.

Author Biography

Ondřej Pekař, University of Defence, Brno, Czechia

1Lt Ondřej Pekař is a PhD candidate at the University of Defence in Brno, where he earned his master's degree in Artillery. After the university, he served as a platoon commander in field artillery. His primary research interests include optimizing artillery operations, deploying unmanned aerial vehicles, and incorporating simulation technologies into military education.

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Published

2024-10-07