弹道学报
彈道學報
탄도학보
JOURNAL OF BALLISTICS
2014年
1期
107-110
,共4页
赵彦峻%张万青%王欣%徐诚
趙彥峻%張萬青%王訢%徐誠
조언준%장만청%왕흔%서성
武器%火控系统%弹道%协同仿真
武器%火控繫統%彈道%協同倣真
무기%화공계통%탄도%협동방진
weapon%fire control system%ballistics%collaborative simulation
针对单兵自动武器简易光电火控系统的研制,建立了瞄具成像模型、激光测距模型、火控弹道模型,为提高光电火控系统设计与仿真效率,引入协同仿真技术,建立了简易火控系统基于接口的协同仿真模型。在建立的仿真系统中,以距离目标600 m进行了仿真实验,获得了简易火控系统仿真特性参数,对协同仿真技术提高复杂系统的效率及有效性进行了验证。实验表明,协同仿真能够完成各种不同软件环境下仿真模型之间的协同工作,解决了单一模型难以描述多种非线性模块关系的问题,提高了仿真效率,为进一步研究单兵火力系统协同仿真提供了参考。
針對單兵自動武器簡易光電火控繫統的研製,建立瞭瞄具成像模型、激光測距模型、火控彈道模型,為提高光電火控繫統設計與倣真效率,引入協同倣真技術,建立瞭簡易火控繫統基于接口的協同倣真模型。在建立的倣真繫統中,以距離目標600 m進行瞭倣真實驗,穫得瞭簡易火控繫統倣真特性參數,對協同倣真技術提高複雜繫統的效率及有效性進行瞭驗證。實驗錶明,協同倣真能夠完成各種不同軟件環境下倣真模型之間的協同工作,解決瞭單一模型難以描述多種非線性模塊關繫的問題,提高瞭倣真效率,為進一步研究單兵火力繫統協同倣真提供瞭參攷。
침대단병자동무기간역광전화공계통적연제,건립료묘구성상모형、격광측거모형、화공탄도모형,위제고광전화공계통설계여방진효솔,인입협동방진기술,건립료간역화공계통기우접구적협동방진모형。재건립적방진계통중,이거리목표600 m진행료방진실험,획득료간역화공계통방진특성삼수,대협동방진기술제고복잡계통적효솔급유효성진행료험증。실험표명,협동방진능구완성각충불동연건배경하방진모형지간적협동공작,해결료단일모형난이묘술다충비선성모괴관계적문제,제고료방진효솔,위진일보연구단병화력계통협동방진제공료삼고。
To improve the overall design performance of photoelectric fire control system(PFCS) and shorten the design cycle,collaborative simulation model of simple PFCS of individual automatic weapon was researched.The collaborative simulation model includes three single field simulation models such as sight imaging model,laser ranging model,fire control ballistics model. The collaborative simulation model of simple PFCS was built by using the interfaces based on col-laborative simulation technology.The simulation test was established in 600 m as the target distance,and the characteristic parameters of fire control simulation were obtained,and the validity of the collaborative simulation technology was verified by the study of the collaborative simulation model of simple PFCS.The tests prove that the collaborative simulation can complete the collaborative work between simulation models under different software environments;the problem that single model can not accurately describe the nonlinear computing can be solved;the simulation efficiency was improved.The study provides the reference for further collaborative simulation of soldier fire system.