![Applied Sciences | Free Full-Text | Synthesis of the Inverse Kinematic Model of Non-Redundant Open-Chain Robotic Systems Using Groebner Basis Theory Applied Sciences | Free Full-Text | Synthesis of the Inverse Kinematic Model of Non-Redundant Open-Chain Robotic Systems Using Groebner Basis Theory](https://pub.mdpi-res.com/applsci/applsci-10-02781/article_deploy/html/images/applsci-10-02781-g003.png?1587819689)
Applied Sciences | Free Full-Text | Synthesis of the Inverse Kinematic Model of Non-Redundant Open-Chain Robotic Systems Using Groebner Basis Theory
![SOLVED: A PUMA 560 robot arm with 6 degree of freedom (DOF as shown in Figure 1 is used for positioning small components in a toy manufacturing factory 170 1100 170 720 SOLVED: A PUMA 560 robot arm with 6 degree of freedom (DOF as shown in Figure 1 is used for positioning small components in a toy manufacturing factory 170 1100 170 720](https://cdn.numerade.com/ask_images/75b9193715674c159c591ef052abc69b.jpg)
SOLVED: A PUMA 560 robot arm with 6 degree of freedom (DOF as shown in Figure 1 is used for positioning small components in a toy manufacturing factory 170 1100 170 720
![GitHub - PascPeli/Puma-Robot-Simulation: Simulation of a Puma 762 manipulator capable of solving the Forward and Inverse Kinematics problems GitHub - PascPeli/Puma-Robot-Simulation: Simulation of a Puma 762 manipulator capable of solving the Forward and Inverse Kinematics problems](https://raw.githubusercontent.com/PascPeli/Puma-Robot-Simulation/master/data/presentation/images/Figure1.png)