loading
Papers Papers/2022 Papers Papers/2022

Research.Publish.Connect.

Paper

Paper Unlock

Authors: Chi He 1 ; Guangling Dong 2 ; Qiang Li 3 ; Mengying Ye 4 and Hongqiang Wei 3

Affiliations: 1 CUST, China ; 2 Baicheng Ordnance Test Center of China and Harbin Institute of Technology, China ; 3 Baicheng Ordnance Test Center of China, China ; 4 East China Normal University, China

Keyword(s): Shipborne Weapon System, Approval Test and Evaluation, Operational Test and Evaluation, Sea Wave Impact, Flight Path, Simulation System.

Related Ontology Subjects/Areas/Topics: Application Domains ; Complex Systems Modeling and Simulation ; Computer Simulation Techniques ; Environmental Modeling ; Formal Methods ; Mathematical Simulation ; Military and Defense ; Simulation and Modeling ; Simulation Tools and Platforms

Abstract: A key technology problem with respect to approval testing and evaluation is that of simulating sea wave impact in shipborne weapons systems, both in terms of land-based and sea-based tests. There are two main methods in use at present: the first method is to build large-scale water pool, in which the shipborne weapons system under test is mounted to a special model ship; the second method is to simulate sea wave impact via a six degree of freedom motion simulation platform. Because of their extremely high costs and engineering implementation difficulties, the two methods have not generally been used in practice. In this paper, a flight path and sea wave impact simulation system which transfer test data via CAN bus was designed and developed, and five mathematical models of typical flight paths (such as a horizontal line path) and three levels of sea wave impact models were established. The sea wave impact models were superimposed to flight path models via equivalent theory and coordi nate mappings; and realistic fighter flights path and sea wave impact environments were, in shipborne weapons system land-based tests, constructed via an input simulation in which the mixed signal is input to the control loop of weapon system under test. The models and methods in this paper were used in a battery of naval gun approval tests, and the tracking performances of the shipborne weapons systems were simulated via MatLab. The simulation test results indicate that the new simulation method and system can meet the requirements of shipborne weapons Operational Test and Evaluation (OT&E) protocols completely. (More)

CC BY-NC-ND 4.0

Sign In Guest: Register as new SciTePress user now for free.

Sign In SciTePress user: please login.

PDF ImageMy Papers

You are not signed in, therefore limits apply to your IP address 44.200.74.73

In the current month:
Recent papers: 100 available of 100 total
2+ years older papers: 200 available of 200 total

Paper citation in several formats:
He, C.; Dong, G.; Li, Q.; Ye, M. and Wei, H. (2014). A Novel Sea Wave Simulation Test Environment Construct for Shipborne Weapons Systems. In Proceedings of the 4th International Conference on Simulation and Modeling Methodologies, Technologies and Applications - SIMULTECH; ISBN 978-989-758-038-3; ISSN 2184-2841, SciTePress, pages 203-210. DOI: 10.5220/0005088902030210

@conference{simultech14,
author={Chi He. and Guangling Dong. and Qiang Li. and Mengying Ye. and Hongqiang Wei.},
title={A Novel Sea Wave Simulation Test Environment Construct for Shipborne Weapons Systems},
booktitle={Proceedings of the 4th International Conference on Simulation and Modeling Methodologies, Technologies and Applications - SIMULTECH},
year={2014},
pages={203-210},
publisher={SciTePress},
organization={INSTICC},
doi={10.5220/0005088902030210},
isbn={978-989-758-038-3},
issn={2184-2841},
}

TY - CONF

JO - Proceedings of the 4th International Conference on Simulation and Modeling Methodologies, Technologies and Applications - SIMULTECH
TI - A Novel Sea Wave Simulation Test Environment Construct for Shipborne Weapons Systems
SN - 978-989-758-038-3
IS - 2184-2841
AU - He, C.
AU - Dong, G.
AU - Li, Q.
AU - Ye, M.
AU - Wei, H.
PY - 2014
SP - 203
EP - 210
DO - 10.5220/0005088902030210
PB - SciTePress