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Reconfiguration of face expressions based on the discrete capture data of radial basis function interpolation 被引量:1

Reconfiguration of face expressions based on the discrete capture data of radial basis function interpolation
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摘要 Compactly supported radial basis function can enable the coefficient matrix of solving weigh linear system to have a sparse banded structure, thereby reducing the complexity of the algorithm. Firstly, based on the compactly supported radial basis function, the paper makes the complex quadratic function (Multiquadric, MQ for short) to be transformed and proposes a class of compactly supported MQ function. Secondly, the paper describes a method that interpolates discrete motion capture data to solve the motion vectors of the interpolation points and they are used in facial expression reconstruction. Finally, according to this characteris- tic of the uneven distribution of the face markers, the markers are numbered and grouped in accordance with the density level, and then be interpolated in line with each group. The approach not only ensures the accuracy of the deformation of face local area and smoothness, but also reduces the time complexity of computing. Compactly supported radial basis function can enable the coefficient matrix of solving weigh linear system to have a sparse banded structure, thereby reducing the complexity of the algorithm. Firstly, based on the compactly supported radial basis function, the paper makes the complex quadratic function (Multiquadric, MQ for short) to be transformed and proposes a class of compactly supported MQ function. Secondly, the paper describes a method that interpolates discrete motion capture data to solve the motion vectors of the interpolation points and they are used in facial expression reconstruction. Finally, according to this characteris- tic of the uneven distribution of the face markers, the markers are numbered and grouped in accordance with the density level, and then be interpolated in line with each group. The approach not only ensures the accuracy of the deformation of face local area and smoothness, but also reduces the time complexity of computing.
出处 《Computer Aided Drafting,Design and Manufacturing》 2012年第2期26-31,共6页 计算机辅助绘图设计与制造(英文版)
基金 Supported by the National Natural Science Foundation of China (No.60875046) by Program for Changjiang Scholars and Innovative Research Team in University(No.IRT1109) the Key Project of Chinese Ministry of Education (No.209029) the Program for Liaoning Excellent Talents in University(No.LR201003) the Program for Liaoning Science and Technology Research in University (No.LS2010008,2009S008,2009S009,LS2010179) the Program for Liaoning Innovative Research Team in University(Nos.2009T005,LT2010005,LT2011018) Natural Science Foundation of Liaoning Province (201102008) by "Liaoning BaiQianWan Talents Program(2010921010,2011921009)"
关键词 compactly supported radial basis function INTERPOLATION motion capture face expressions reconfiguration compactly supported radial basis function interpolation motion capture face expressions reconfiguration
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