激光扫描技术在运动员三维人体模型建立中的应用
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摘要
采用激光扫描技术建立运动员的运动模型,重构运动员的动作细节可改善训练水平。针对当前的Kernel重构方法维数较高,计算开销较大,提出基于最小二乘回归扩展算法的运动员三维人体模型重构方法。在人体骨架模型基础上进行运动员三维人体信息的激光扫描,视觉重建激光扫描采集的人体模型信息,采用线性内插方法将运动员三维人体激光扫描数据进行最小二乘拟合,运用最小二乘回归扩展方法实现运动员三维人体模型重构。最后通过测试进行了性能验证,结果表明,采用该方法进行运动员三维人体模型建立的效果较好,能对不同自由度的动作过程实现准确拟合,且计算复杂度较低。
Using laser scanning technology to create athletes of 3D human body model,reconstruction of athlete's action,improve the level of training,for a higher dimension of kernel reconstruction method calculated larger cost is proposed based on least squares regression algorithm for the athletes of three-dimensional human body model reconstruction method of expansion,the player 3D information of the laser scanning on the human skeleton model based,on laser scanning acquisition information of human model for visual reconstruction,using linear interpolation method will be athletes 3D laser scanning data by the least square fitting,by least squares regression extension method to realize 3D human model reconstruction of athletes. Finally the simulation test were performance verification,results show that the athletes 3D human body model is established by using this method the effect is good,the action process of different degrees of freedom to achieve accurate fitting,and has low computational complexity.
Using laser scanning technology to create athletes of 3D human body model,reconstruction of athlete's action,improve the level of training,for a higher dimension of kernel reconstruction method calculated larger cost is proposed based on least squares regression algorithm for the athletes of three-dimensional human body model reconstruction method of expansion,the player 3D information of the laser scanning on the human skeleton model based,on laser scanning acquisition information of human model for visual reconstruction,using linear interpolation method will be athletes 3D laser scanning data by the least square fitting,by least squares regression extension method to realize 3D human model reconstruction of athletes. Finally the simulation test were performance verification,results show that the athletes 3D human body model is established by using this method the effect is good,the action process of different degrees of freedom to achieve accurate fitting,and has low computational complexity.
引文
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[2]盂勃,韩广良.基于改进的尺度不变特征变换特征点匹配的电子稳像算法[J].计算机应用,2012,32(10):2817-2820.
[3]于涛,胡炳樑,高晓惠,等.高光谱干涉图像动态追踪补偿方法研究[J].光子学报,2016,45(7):37-41.
[4]赵蓉,顾国华,杨蔚.基于偏振成像的可见光图像增强[J].激光技术,2016,40(2):227-231.
[5]何其锐,李立萍.减小声光频谱仪频率测量方差算法研究[J].红外与激光工程,2015,44(5):1564-1568.
[6]杨雨迎,崔占忠,张万君.基于双高斯拟合的目标激光偏振特性实验研究[J].红外与激光工程,2015,44(2):449-454.
[7]粘永健,辛勤,万建伟,等.基于多波段预测的高光谱图像分布式无损压缩[J].光学精密工程,2012,20(4):906-912.
[8]Cawley G C,Talbot N L C,Foxall R J,et al.Heteroscedastic Kernel Ridge Regression[J].Neuro-computing,2004,57(3):105-124.
[9]李进,金龙旭,李国宁.适于星上应用的高光谱图像无损压缩算法[J].光谱学与光谱分析,2012,32(8):2264-2269.
[10]温佳,马彩文,水鹏朗.改进自适应LBG矢量量化算法在干涉高光谱图像压缩中的应用[J].光谱学与光谱分析,2011,31(4):1033-1037.
[11]乔闹生.印制电路板缺陷图像边缘检测[J].光子学报,2016,45(4):117-123.
[12]赵婧鑫,周富强.小尺寸光斑中心的高精度定位算法[J].红外与激光工程,2014,43(8):2690-2693.
[13]张聪,余文峰,夏珉,等.光纤受激布里渊散射的光信号特性分析[J].激光技术,2016,40(3):363-366.
[14]高旭,万秋华,卢新然,等.莫尔条纹光电信号自动补偿系统[J].红外与激光工程,2016,45(2):172-177.
[15]王晓涛,王绪安,康宁.CCD摄像机新型光控技术研究[J].红外与激光工程,2016,45(1):189-194.
[16]莫春红,刘波,丁璐,陈二瑞,郭高.一种梯度阈值自动调焦算法[J].红外与激光工程,2014,43(1):323-327.
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