Previously,many studies have illustrated corner blend problem with different parameter curves.Only a few of them take a Pythagorean-hodograph(PH)curve as the transition arc,let alone corresponding real-time interpolat...Previously,many studies have illustrated corner blend problem with different parameter curves.Only a few of them take a Pythagorean-hodograph(PH)curve as the transition arc,let alone corresponding real-time interpolation methods.In this paper,an integrated corner-transition mixing-interpolation-based scheme(ICMS)is proposed,considering transition error and machine tool kinematics.Firstly,the ICMS smooths the sharp corners in a linear path through blending the linear path with G3 continuous PH transition curves.To obtain optimal PH transition curves globally,the problem of corner smoothing is formulated as an optimization problem with constraints.In order to improve optimization efficiency,the transition error constraint is deduced analytically,so is the curvature extreme of each transition curve.After being blended with PH transition curves,a linear path has become a blend curve.Secondly,the ICMS adopts a novel mixed interpolator to process this kind of blend curves by considering machine tool kinematics.The mixed interpolator can not only implement jerk-limited feedrate scheduling with critical points detection,but also realize self-switching of two interpolation modes.Finally,two patterns are machined with a carving platform based on ICMS.Experiment l results show the effectiveness of ICMS.展开更多
基金supported by the National Natural Science Foundation of China under Grant No.61573378supports from Henan Province Programs for Science and Technology Development under Grant No.212102210391Anyang Institute of Technology Research and Cultivation Fund under Grant No.YPY2020012。
文摘Previously,many studies have illustrated corner blend problem with different parameter curves.Only a few of them take a Pythagorean-hodograph(PH)curve as the transition arc,let alone corresponding real-time interpolation methods.In this paper,an integrated corner-transition mixing-interpolation-based scheme(ICMS)is proposed,considering transition error and machine tool kinematics.Firstly,the ICMS smooths the sharp corners in a linear path through blending the linear path with G3 continuous PH transition curves.To obtain optimal PH transition curves globally,the problem of corner smoothing is formulated as an optimization problem with constraints.In order to improve optimization efficiency,the transition error constraint is deduced analytically,so is the curvature extreme of each transition curve.After being blended with PH transition curves,a linear path has become a blend curve.Secondly,the ICMS adopts a novel mixed interpolator to process this kind of blend curves by considering machine tool kinematics.The mixed interpolator can not only implement jerk-limited feedrate scheduling with critical points detection,but also realize self-switching of two interpolation modes.Finally,two patterns are machined with a carving platform based on ICMS.Experiment l results show the effectiveness of ICMS.
