FPGA based hardware accelerator for calculations of the parallel robot inverse kinematics
Konrad Gac, Grzegorz Karpiel, Maciej Petko
- Year
- 2012
- Citations
- 15
Abstract
The paper presents an application of field programmable gate arrays (FPGA) to support the calculation of the inverse kinematics problem of a parallel robot. The presented robot is designed for milling by moving the spindle along a desired trajectory generated in the Cartesian space. This means that for each point of the trajectory a solution of the inverse kinematics problem is needed. The resulting sequence of data creates the joint space trajectory that must be calculated on-line at high frequency. The paper shows how to decrease the calculation time preserving required accuracy, by augmenting the arithmetic-logic unit (ALU) of a microprocessor with custom instructions. The hardware implementation of the accelerator is described and results of calculations performed in an Altera FPGA chip are analyzed.
Keywords
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