光电工程
光電工程
광전공정
OPTO-ELECTRONIC ENGINEERING
2014年
5期
46-51
,共6页
林志强%王天友%南刚雷%张瑞峰
林誌彊%王天友%南剛雷%張瑞峰
림지강%왕천우%남강뢰%장서봉
线结构光%三维形貌%虚拟双目立体视觉
線結構光%三維形貌%虛擬雙目立體視覺
선결구광%삼유형모%허의쌍목입체시각
line structured light%three-dimensional morphology%virtual stereo vision
为了获取某种型号内燃机工件的三维形貌数据,设计了线结构光非接触方式的移动扫描测量系统。探索出了以虚拟双目立体视觉原理为理论基础的相机光心平移轨迹所在直线的方向余弦标定的实现方法,从而确定由系统中各局部坐标系变换到系统全局坐标系的旋转矩阵R和平移向量T,进而求出系统中各个局部坐标系原点在系统全局坐标系下的坐标值,最后得到相机光心移动轨迹所在直线的方向余弦。探索出利用相机的移动距离及方向余弦将局部坐标系数据转换至全局坐标系的计算方法,扫描获取了某种型号柴油机缸盖的三维形貌点云数据,在此基础上设计算法从中提取出气道口的中心坐标,测量精度较高。采用逆向工程软件对工件进行了表面重构,结果与实际表面特征信息吻合良好。
為瞭穫取某種型號內燃機工件的三維形貌數據,設計瞭線結構光非接觸方式的移動掃描測量繫統。探索齣瞭以虛擬雙目立體視覺原理為理論基礎的相機光心平移軌跡所在直線的方嚮餘絃標定的實現方法,從而確定由繫統中各跼部坐標繫變換到繫統全跼坐標繫的鏇轉矩陣R和平移嚮量T,進而求齣繫統中各箇跼部坐標繫原點在繫統全跼坐標繫下的坐標值,最後得到相機光心移動軌跡所在直線的方嚮餘絃。探索齣利用相機的移動距離及方嚮餘絃將跼部坐標繫數據轉換至全跼坐標繫的計算方法,掃描穫取瞭某種型號柴油機缸蓋的三維形貌點雲數據,在此基礎上設計算法從中提取齣氣道口的中心坐標,測量精度較高。採用逆嚮工程軟件對工件進行瞭錶麵重構,結果與實際錶麵特徵信息吻閤良好。
위료획취모충형호내연궤공건적삼유형모수거,설계료선결구광비접촉방식적이동소묘측량계통。탐색출료이허의쌍목입체시각원리위이론기출적상궤광심평이궤적소재직선적방향여현표정적실현방법,종이학정유계통중각국부좌표계변환도계통전국좌표계적선전구진R화평이향량T,진이구출계통중각개국부좌표계원점재계통전국좌표계하적좌표치,최후득도상궤광심이동궤적소재직선적방향여현。탐색출이용상궤적이동거리급방향여현장국부좌표계수거전환지전국좌표계적계산방법,소묘획취료모충형호시유궤항개적삼유형모점운수거,재차기출상설계산법종중제취출기도구적중심좌표,측량정도교고。채용역향공정연건대공건진행료표면중구,결과여실제표면특정신식문합량호。
In order to obtain three-dimensional data of engine cylinder head blank, a passive line structured light canning measurement system is designed. Calibration of the direction cosine of the movement of camera optical center is given based on principle of virtual binocular stereo vision. Stereo vision system consists of a single camera moving along the one-dimensional rail, which gives Rotation matrix R and Translation vector T between local coordinate system and global coordinate system. And then the origin of local coordinate system is conversion to the global coordinate system so that the line of movement of camera along the rail is fitted and its direction cosine is calculated. Three-dimensional topography of a certain cylinder head is scanned and the cloud data on this topography is obtained, from which the data of Intake port center coordinates is extracted. Finally, the three-dimensional data is dealt with reverse engineering software and surface reconstruction works well.
