As the importance of artillery equipment in rapid response and precision strikes continues to grow in modern warfare, digital simulation technology has become a critical tool for evaluating the combat effectiveness of firepower strike equipment. This paper, based on a modular modeling approach, proposes a combat effectiveness simulation framework for self-propelled artillery. By decomposing the self-propelled artillery system into five main functional modules—mobility, firepower, ammunition, protection, and target characteristics—the paper constructs a multi-level digital twin simulation model. The results demonstrate that the model can accurately reflect the performance of artillery equipment under various battlefield conditions, showing promising application prospects. Finally, the paper discusses the potential of this simulation method in military training, equipment testing, and tactical optimization.

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Preliminary Exploration of Modular Simulation Modeling Method for Firepower Strike Equipment

  • Yisheng Hao,
  • Leiping Guo,
  • Xun Wang,
  • Fei Wang,
  • Lixuan Wei,
  • Zidong Lin,
  • Yang Yu,
  • Yuze Xiao,
  • Binkai Xia,
  • Yibo Lv,
  • Haoyu Guo,
  • Zonghao Yang,
  • Haopeng Wu

摘要

As the importance of artillery equipment in rapid response and precision strikes continues to grow in modern warfare, digital simulation technology has become a critical tool for evaluating the combat effectiveness of firepower strike equipment. This paper, based on a modular modeling approach, proposes a combat effectiveness simulation framework for self-propelled artillery. By decomposing the self-propelled artillery system into five main functional modules—mobility, firepower, ammunition, protection, and target characteristics—the paper constructs a multi-level digital twin simulation model. The results demonstrate that the model can accurately reflect the performance of artillery equipment under various battlefield conditions, showing promising application prospects. Finally, the paper discusses the potential of this simulation method in military training, equipment testing, and tactical optimization.