Computer Simulation Framework for Naval Artillery: An Integrable Solution for Naval Simulation

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Cao Xuan Canh, Nguyen Danh Nam, Nguyen Hai Duong, Nguyen Hai Anh

Abstract

This paper presents a novel simulation framework for naval gun systems. The framework is designed with a modular architecture comprising four main components: (1) Scenario Unit: Environment Conditions & Computer-Generated Force, (2) Sensors Unit: detection and tracking, (3) Computing Unit: focused on ballistics and trajectory calculations, interception, and stability control, and (4) I/O Unit: Data Interface for User Interface and Experience. The framework establishes a comprehensive simulation system for diverse naval gun types, encompassing multi-target tracking and engagement capabilities. It is customizable for anti-surface and anti-air warfare based on predictive firing computation methods and control techniques for gun systems and guided projectiles. Furthermore, the framework provides standardized interface that allow integration with other naval simulation systems. The primary objective is to create a flexible, reusable, and extensible platform for various anti-air and anti-surface gun simulation systems. This framework supports development, evaluation, and training in naval ship simulators while facilitating easy integration with hardware platforms such as Degrees of Freedom (DOF) for gun simulation. This research improves the accuracy and operational efficiency of modern naval gun simulation systems.

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