National Defense, National Security Subprogram – Research on the Resilience of Military Systems at Széchenyi István University
Application ID: TKP2021-NVA-23
Amount of support: HUF 1,600,000,000
Support rate: 100%
Project duration: January 1, 2022 – December 31, 2025
Project description:
The objective of the 2021 Thematic Excellence Program project is to research the resilience of military systems in the following areas:
- Determination and theoretical research of the resilience/stability of military systems
- 3D digital battlefield
- Application of 3D techniques in defense systems
- Research into the resilience of hybrid-electric light armored ground vehicles and unmanned aerial vehicles
Based on the planned research, a method will be developed to determine the resilience of an existing system. When determining the resilience indicator, the possibility of unpredictable changes in both internal and external conditions will be taken into account. A model and methodology for the resilience of systems will be created, which will provide a basis for developments that reduce the vulnerability of the system.
In line with the 3D Digital Battlefield concept, alternative reality (VR/AR) systems are being developed that enable preliminary assessment of remote battlefields. In line with the 3D Digital Battlefield concept, visualization human interfaces are selected and developed. By ensuring the spatial and temporal coordination of digital content, digital battlefield information management and collaboration are achieved, the implemented version of which is widely presented.
Within the research area of the application of 3D technologies in defense systems, the construction and reconstruction optimization of various weapons and defense equipment components will be developed in order to take advantage of modern 3D techniques. In connection with defense systems based on 3D techniques, prototypes of new defense equipment are being created that are suitable for industrial application. A new diagnostic and testing methodology based on 3D reconstruction is being developed that can be applied to protective coverings and weapons.
An extended laboratory equipment pool and testing methodology will be created for the tolerance of electric drives, which will support the testing and simulation of specified overloads in line with the research objectives. In the case of electric drives, a laboratory system and methodology suitable for the predictive analysis of system endurance and data simulation will be developed, which will be demonstrated on several real drives.
