广西大学学报(自然科学版)
廣西大學學報(自然科學版)
엄서대학학보(자연과학판)
JOURNAL OF GUANGXI UNIVERSITY (NATURAL SCIENCE EDITION)
2014年
6期
1227-1233
,共7页
交通事故%曲面模型%激光点云%变形车身
交通事故%麯麵模型%激光點雲%變形車身
교통사고%곡면모형%격광점운%변형차신
traffic accident%curved surface model%laser point cloud%deformed vehicle body
交通事故分析再现离不开事故车辆曲面模型,变形的车身成了重建的障碍。利用三维激光扫描技术这一新方法快速、高效地获取事故现场激光点云并进行预处理;针对正面碰撞后车身前部保留1/3以上未变形区域的事故车辆,综合车身尺寸、车轮型号等提取用于绘制变形曲面特征点的尺寸基准,根据变形程度划分三个重建区域,按照特征点、特征曲线、曲面的顺序,从未变形区域开始,经由过渡区域至变形区域逐步重建车身前部曲面模型。通过实例重建模型与原车身的偏差分析显示,正偏差均值1.36 cm,负偏差均值-1.14 cm,都较小,同时曲面各处正或负偏差集中于偏差值较小的区间内。表明按本文方法直接利用变形车辆就可重建出具有足够精度的车身曲面模型。该模型经进一步处理后,可用于搭建多刚体—有限元耦合车辆模型。
交通事故分析再現離不開事故車輛麯麵模型,變形的車身成瞭重建的障礙。利用三維激光掃描技術這一新方法快速、高效地穫取事故現場激光點雲併進行預處理;針對正麵踫撞後車身前部保留1/3以上未變形區域的事故車輛,綜閤車身呎吋、車輪型號等提取用于繪製變形麯麵特徵點的呎吋基準,根據變形程度劃分三箇重建區域,按照特徵點、特徵麯線、麯麵的順序,從未變形區域開始,經由過渡區域至變形區域逐步重建車身前部麯麵模型。通過實例重建模型與原車身的偏差分析顯示,正偏差均值1.36 cm,負偏差均值-1.14 cm,都較小,同時麯麵各處正或負偏差集中于偏差值較小的區間內。錶明按本文方法直接利用變形車輛就可重建齣具有足夠精度的車身麯麵模型。該模型經進一步處理後,可用于搭建多剛體—有限元耦閤車輛模型。
교통사고분석재현리불개사고차량곡면모형,변형적차신성료중건적장애。이용삼유격광소묘기술저일신방법쾌속、고효지획취사고현장격광점운병진행예처리;침대정면팽당후차신전부보류1/3이상미변형구역적사고차량,종합차신척촌、차륜형호등제취용우회제변형곡면특정점적척촌기준,근거변형정도화분삼개중건구역,안조특정점、특정곡선、곡면적순서,종미변형구역개시,경유과도구역지변형구역축보중건차신전부곡면모형。통과실례중건모형여원차신적편차분석현시,정편차균치1.36 cm,부편차균치-1.14 cm,도교소,동시곡면각처정혹부편차집중우편차치교소적구간내。표명안본문방법직접이용변형차량취가중건출구유족구정도적차신곡면모형。해모형경진일보처리후,가용우탑건다강체—유한원우합차량모형。
Curve surface model of vehicle is necessary for analysis and reconstruction of traffic acci-dent, the deformed vehicle body is the obstacle. 3D terrestrial laser scanning technology is a new means for collecting laser point cloud in the traffic accident scene quickly and efficiently. On the so-lo collision manner and above 1/3 undeformed area that collision parts remain, extracting size refer-ences for drawing feature points with vehicle body size, wheel type and so on, it is divided into three reconstructing areas according to the degree of deformation, then surface model of vehicle frontal body is gradually reconstructed from undeformed areas, transition areas to total deformed areas fol-lowing the sequence of feature points, feature curves and surfaces in every area. Taking the real frontal collision vehicle as an example to demonstrate the method, and through comparing with origi-nal automobile body, it is analyzed that both average positive and negative values are 1. 36 cm and-1. 14 cm respectively, as well as the distribution of positive and negative deviation are separately concentrated in the small value’s region. Analysis above indicates that the proposed method could be used for reconstructing the surface model which has enough accuracy with the deformed body. It could be processed for further constructing MBS-FE model.