农业工程学报
農業工程學報
농업공정학보
2005年
2期
86-91
,共6页
道路激励%随机不平顺%时域模型%计算机仿真
道路激勵%隨機不平順%時域模型%計算機倣真
도로격려%수궤불평순%시역모형%계산궤방진
Road excitation%stochastic irregularity%time-domain model%computer simulation
为了对道路随机激励下车辆的平顺性动力学进行研究首先必须建立道路高程的时间历程.为了对时域内道路的数学模型、算法设计和道路仿真实现的研究,分析了道路不平顺高程从频域向时域的转换方法并在建模数值道路过程中考虑了车轮之间以及两轮辙之间的相关性,设计了三种主要的道路模拟算法--谐波叠加法、白噪声过滤法和基于道路功率谱离散的逆Fourier变换法并将其于MATlab平台上集成为专用的道路仿真系统.为使仿真尽可能真实,包括时域中的双轮辙关系、道路仿真算法的改进以及多元算法的集成等方面也给予了重视.仿真算例研究表明了所用方法原理上的普适性、有效性,以及仿真结果与实际道路的一致性.
為瞭對道路隨機激勵下車輛的平順性動力學進行研究首先必鬚建立道路高程的時間歷程.為瞭對時域內道路的數學模型、算法設計和道路倣真實現的研究,分析瞭道路不平順高程從頻域嚮時域的轉換方法併在建模數值道路過程中攷慮瞭車輪之間以及兩輪轍之間的相關性,設計瞭三種主要的道路模擬算法--諧波疊加法、白譟聲過濾法和基于道路功率譜離散的逆Fourier變換法併將其于MATlab平檯上集成為專用的道路倣真繫統.為使倣真儘可能真實,包括時域中的雙輪轍關繫、道路倣真算法的改進以及多元算法的集成等方麵也給予瞭重視.倣真算例研究錶明瞭所用方法原理上的普適性、有效性,以及倣真結果與實際道路的一緻性.
위료대도로수궤격려하차량적평순성동역학진행연구수선필수건립도로고정적시간역정.위료대시역내도로적수학모형、산법설계화도로방진실현적연구,분석료도로불평순고정종빈역향시역적전환방법병재건모수치도로과정중고필료차륜지간이급량륜철지간적상관성,설계료삼충주요적도로모의산법--해파첩가법、백조성과려법화기우도로공솔보리산적역Fourier변환법병장기우MATlab평태상집성위전용적도로방진계통.위사방진진가능진실,포괄시역중적쌍륜철관계、도로방진산법적개진이급다원산법적집성등방면야급여료중시.방진산례연구표명료소용방법원리상적보괄성、유효성,이급방진결과여실제도로적일치성.
It is necessary to model and simulate the time histories of the road for ride dynamics of a vehicle subjected to the stochastic road excitation. This paper focuses on the mathematical model, algorithm design and simulation realization of road in time domain. The methods converting the frequency domain model of road irregularity to the time domain model were analyzed and the correlations between vehicle wheels and between tracks were taken into account in modeling the numerical road. Three main algorithms, harmony superposition, white noise filtration, and Inverse Fast Fourier Transform (IFFT) based on road power spectral density (PSD), were designed and integrated as a system of road simulation constructed on the MATLAB software platform. For the simulation to be as realistic as possible, several important aspects, including the bi-lateral track relation in time domain, the improvement of simulation algorithm and the integration of the methods were emphasized. The simulation example demonstrates that the applied methods are general and efficient, and the resulting time domain road agrees fairly well with the reality.