Joint Anti-submarine Systems (JAS) is a complex system employed in Anti-Submarine Warfare (ASW). Current research in this domain, however, mainly focuses on pure theoretical analysis or unable to support efficient simulations. Consequently these works cannot be effectively applied to develop simulations that can represent and evaluate requirements and tactical designs. This paper discusses a WESS (Weapon Effectiveness Simulation Systems)-based method for JAS simulation through designing routes for helicopters. Firstly, we specified the hierarchical structure of JAS complexity from two perspectives. One is the 'part of hierarchy which specifies parts of systems as component diagrams. While the other is the 'is a" hierarchy specifying inheritance relationships among parts of systems as class diagrams. After that, in order to lock the adversary submarine in a closed area, through a circle calculation the circle search pattern is introduced to display a tactical way to design waypoints for helicopters. Upon the WESS framework we developed an exemplar simulation scenario integrated with script-based decision scripts to process simulation and demonstratively presented the two-dimensional screenshot of the circle pattern. It is shown that the proposed method can improve the efficiency of simulation application development to meet those requirements mentioned above.
|Original language||English (US)|
|Number of pages||5|
|State||Published - 2016|
- Decision modeling
- Effectiveness simulation
ASJC Scopus subject areas
- Computer Networks and Communications