ANSYS > Case Studies > IoT Implementation in Defense Research: A Case Study of TNO Prins Maurits Laboratory

IoT Implementation in Defense Research: A Case Study of TNO Prins Maurits Laboratory

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Applicable Functions
  • Product Research & Development
Use Cases
  • Onsite Human Safety Management
About The Customer
TNO Prins Maurits Laboratory (TNO-PML) is a leading institution in the field of defense research, based in the Netherlands. With a proven track record of high-quality research, TNO-PML provides scientific and technical advice in various areas, including explosion safety, munition effects, ballistic protection, and the survivability of weapon platforms. The laboratory combines experimental facilities with numerical analysis capabilities to deliver comprehensive and practical solutions. TNO-PML's main applications of their research tool, AUTODYN, include terminal ballistics, injury biomechanics, safe field storage of ammunition and explosives, effects of bomb attacks and explosions onto structures, explosive materials processing, and mineblast modeling.
The Challenge
TNO Prins Maurits Laboratory (TNO-PML) is a renowned institution in the field of defense research, providing scientific and technical advice in areas such as explosion safety, munition effects, ballistic protection, and survivability of weapon platforms. The laboratory combines experimental facilities with numerical analysis capabilities to deliver high-quality research. However, the challenge lies in the application of these research findings in real-world scenarios. The main applications of their research tool, AUTODYN, include terminal ballistics, injury biomechanics, safe field storage of ammunition and explosives, effects of bomb attacks and explosions onto structures, explosive materials processing, and mineblast modeling. The challenge is to effectively utilize these applications in a way that enhances the safety and efficiency of defense operations.
The Solution
To address these challenges, TNO-PML has been actively involved in research relevant to gas explosions and blast effects, in collaboration with Century Dynamics. They have been using AUTODYN, a versatile tool that allows for the simulation of a wide range of scenarios. This includes terminal ballistics related to shaped charges, kinetic energy projectiles, and armor, injury biomechanics such as blast wave effects on the human body and blunt trauma, and the effects of bomb attacks and explosions onto structures. Additionally, AUTODYN is used for the safe field storage of ammunition and explosives, explosive materials processing, and mineblast modeling. This comprehensive approach allows TNO-PML to apply their research findings in a practical and effective manner, enhancing the safety and efficiency of defense operations.
Operational Impact
  • The implementation of AUTODYN in TNO-PML's research and operations has resulted in a more comprehensive and practical approach to defense research. The tool allows for the simulation of a wide range of scenarios, enhancing the laboratory's ability to apply their research findings in real-world situations. This has improved the safety and efficiency of defense operations, as well as the laboratory's ability to provide scientific and technical advice in their areas of expertise. Furthermore, the collaboration with Century Dynamics has allowed for ongoing research into gas explosions and blast effects, further expanding the laboratory's capabilities and areas of expertise.

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