简介:计算机成像CGI技术及高速数据通信与处理技术的发展,使得航海模拟器在环境真实感和操船行为真实感等方面性能提高显著,近年来十分注重船舶运动数学模型优化、3D效果渲染等方面的研究,而航海仪器及操船设备等硬件组态模拟研究还需进一步加强.为提高桌面型航海模拟器的物理真实感,实现模拟器组件与实船装备通用化,给出了一套利用角度传感器、通用罗经数字接口、转速计、GPS模组、AIS实船设备及STC12C5A60S单片机开发板等设计的与实船仪器设备接口一致的硬件仿真输出方案及虚拟航海仪器界面、海图平面态势及三维视景相结合的模拟器架构方案.将仿真硬件(以IEC61162输出为例)按实船状态进行设备互联,电子电气逼真度高,数据可融入ECDIS模拟器及视景模拟器.
简介:Inordertostudytheeffectsofgeometricparametersoftherudderonthehydrodynamicperformanceofthepropeller-ruddersystem,thesurfacepanelmethodisusedtobuildthenumericalmodelofthesteadyinteractionbetweenthepropellerandruddertoanalyzetherelevantfactors.Theinteractionbetweenthepropellerandrudderisconsideredthroughtheinducedvelocities,whicharecircumferentiallyaveraged,sotheunsteadyproblemistranslatedtosteadystate.Aniterativecalculationmethodisuseduntilthehydrodynamicperformanceconverges.Firstly,thehydrodynamicperformanceofthechosenpropeller-ruddersystemiscalculated,andthecomparisonbetweenthecalculatedresultsandtheexperimentaldataindicatesthatthecalculationprogramisreliable.Then,thevariableparametersofrudderareinvestigated,andthecalculationresultsshowthatthepropeller-rudderspacinghasanegativerelationshipwiththeefficiencyofthepropeller-ruddersystem,andtherudderspanhasanoptimalmatchrangewiththepropellerdiameter.Futhermore,therudderchordandthicknessbothhaveapositivecorrelationwiththehydrodynamicperformanceofthepropeller-ruddersystem.
简介:针对噪声同时依赖于状态和控制的It8型离散随机奇异系统,讨论其在有限时域内的非零和博弈问题.首先,讨论了单人博弈问题(离散随机奇异系统最优控制问题),即双人博弈的特殊情形,借鉴连续随机奇异系统的相关研究,利用配方法,得到了离散随机奇异系统单人博弈最优策略存在的充分条件等价于相应的差分方程存在解.在此基础上,通过转换方法,由单人博弈推广到两人博弈,得到了有限时间离散随机奇异系统非零和博弈问题的均衡解.该均衡解存在的充分条件等价于其相应耦合Riccati差分方程存在解,并给出了最优策略及最优值的表达式.
简介:Inordertominimizetheharmcausedbytheinstabilityofaplaningcraft,amotionpredictionmodelisessential.ThispaperanalyzedthefeasibilityofusinganMGM(1,N)modelingreysystemtheorytopredictplaningcraftmotionandcarriedoutthenumericalsimulationexperiment.Accordingtothecharacteristicsofplaningcraftmotion,arecurrenceformulawasproposedoftheparametermatrixofanMGM(1,N)model.Usingthisformula,datacanbeupdatedinreal-timewithoutincreasingcomputationalcomplexitysignificantly.TheresultsofnumericalsimulationshowthatusinganMGM(1,N)modeltopredictplaningmotionisfeasibleandusefulforprediction.Sothemethodproposedinthisstudycanreflecttheplaningcraftmotionmechanismsuccessfully,andhasrationalandeffectivefunctionsofforecastingandanalyzingtrends.