This paper presents a fast numerical solution for the inverse kinematics of a serial manipulator. The method is implemented on the C‐arm, a manipulator designed for use in robotic surgery. The inverse kinematics solution provides all possible solutions for any six degree‐of‐freedom serial manipulator, assuming that the forward kinematics are known and that it is possible to solve for the remaining joint angles if one joint angle’s value is known. With a fast numerical method and the current levels of computing power, designing a manipulator with closed‐form inverse kinematics is no longer necessary. When designing the C‐arm, we therefore chose to weigh other factors, such as actuator size and patient safety, more heavily than the ability to find a closed‐form inverse kinematics solution.
This paper presents a fast numerical solution for the inverse kinematics of a serial manipulator. The method is implemented on the C-arm, a manipulator designed for use in robotic surgery. The inverse kinematics solution provides all possible solutions for any six degree-of-freedom serial manipulator, assuming that the forward kinematics are known and that it is possible to solve for the remaining joint angles if one joint angle’s value is known. With a fast numerical method and the current levels of computing power, designing a manipulator with closed-form inverse kinematics is no longer necessary. When designing the C-arm, we therefore chose to weigh other factors, such as actuator size and patient safety, more heavily than the ability to find a closed-form inverse kinematics solution.
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