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Fast Study Quadric Interpolation in the Conformal Geometric Algebra Framework

Gerardo Martinez-Terán, Oswaldo Ureña-Ponce, Gerardo Soria-García, Susana Ortega Cisneros, Eduardo Bayro–Corrochano

发表年份
2022
引用次数
7
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摘要

Interpolating trajectories of points and geometric entities is an important problem for kinematics. To describe these trajectories, several algorithms have been proposed using matrices, quaternions, dual-quaternions, and the Study quadric; the last one allows the embedding of motors as 8D vectors into projective space P7, where the interpolation of rotations and translations becomes a linear problem. Furthermore, conformal geometric algebra (CGA) is an effective and intuitive framework for representing and manipulating geometric entities in Euclidean spaces, and it allows the use of quaternions and dual-quaternions formulated as Motors. In this paper, a new methodology for accelerating the Study quadric Interpolation based on Conformal Geometric Algebra is presented. This methodology uses General Purpose Graphics Processing Units (GPUs) and it is applied for medical robotics, but it can also be extended to other areas such as aeronautics, robotics, and graphics processing.

关键词

QuadricConformal geometric algebraGeometric algebraQuaternionDual quaternionAlgebra over a fieldInterpolation (computer graphics)Euclidean spaceMathematicsUniversal geometric algebra

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