Abstract
The armed forces of major nations have utilized modeling and simulation technologies to develop weapon systems corresponding to changing modern battlefields and reducing the development cycle. However, model design is complex owing to the characteristics of current weapons, which require multiple functions. Therefore, this study proposes a method to support the automated design of weapon system models for simulation. We apply module-based modeling and an intelligent modeling process to our devised method. The former formalizes constituents and constraints regarding an element combination to design the required model, while the latter applies case-based reasoning (CBR) to intelligentize the modeling process based on the results of the former. Using a case study, our proposed method demonstrates that models that respond to operational circumstances can be designed based on simulation results. Consequently, when weapon systems can be represented in formalized structures and constituents, the weapon models can be reusable based on the addition, modification, and replacement of modules in the common structure. The CBR process can provide the models that satisfy the requirements by retrieving similar models and modifying the models. The proposed method is applicable to the process of weapon system design or improvement for changing battlefields.
Highlights
IntroductionThe change in the modern battlefields to local and asymmetric warfare has forced the armed forces of major nations to find solutions for expanding their abilities in responding to these changes [1]
The change in the modern battlefields to local and asymmetric warfare has forced the armed forces of major nations to find solutions for expanding their abilities in responding to these changes [1].Since their existing capabilities are limited with respect to coping with current battlefields involving new and potential threats, the acquisition and deployment of new weapon systems are important to prepare for expected conflicts [2]
The case study showed that the method we proposed is applicable to modeling and simulating weapon systems
Summary
The change in the modern battlefields to local and asymmetric warfare has forced the armed forces of major nations to find solutions for expanding their abilities in responding to these changes [1] Since their existing capabilities are limited with respect to coping with current battlefields involving new and potential threats, the acquisition and deployment of new weapon systems are important to prepare for expected conflicts [2]. This means that traditional approaches for the design of weapons need to be modified to prepare for unprecedented aspects of warfare.
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