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  2. Cartesian coordinate robot - Wikipedia

    en.wikipedia.org/wiki/Cartesian_coordinate_robot

    Kinematic diagram of Cartesian (coordinate) robot A plotter is an implementation of a Cartesian coordinate robot.. A Cartesian coordinate robot (also called linear robot) is an industrial robot whose three principal axes of control are linear (i.e. they move in a straight line rather than rotate) and are at right angles to each other. [1]

  3. Cartesian parallel manipulators - Wikipedia

    en.wikipedia.org/wiki/Cartesian_parallel...

    Cartesian manipulators are driven by mutually perpendicular linear actuators. They generally have a one-to-one correspondence between the linear positions of the actuators and the X, Y, Z position coordinates of the moving platform, making them easy to control. Furthermore, Cartesian manipulators do not change the orientation of the moving ...

  4. Inverse kinematics - Wikipedia

    en.wikipedia.org/wiki/Inverse_kinematics

    Forward vs. inverse kinematics. In computer animation and robotics, inverse kinematics is the mathematical process of calculating the variable joint parameters needed to place the end of a kinematic chain, such as a robot manipulator or animation character's skeleton, in a given position and orientation relative to the start of the chain.

  5. Parallel manipulator - Wikipedia

    en.wikipedia.org/wiki/Parallel_manipulator

    A manipulator can move an object with up to 6 degrees of freedom (DoF), determined by 3 translation 3T and 3 rotation 3R coordinates for full 3T3R mobility. However, when a manipulation task requires less than 6 DoF, the use of lower mobility manipulators, with fewer than 6 DoF, may bring advantages in terms of simpler architecture, easier control, faster motion and lower cost. [2]

  6. Industrial robot - Wikipedia

    en.wikipedia.org/wiki/Industrial_robot

    Cartesian robots, [5] also called rectilinear, gantry robots, and x-y-z robots [6] have three prismatic joints for the movement of the tool and three rotary joints for its orientation in space. To be able to move and orient the effector organ in all directions, such a robot needs 6 axes (or degrees of freedom).

  7. Robot kinematics - Wikipedia

    en.wikipedia.org/wiki/Robot_kinematics

    The inverse velocity problem seeks the joint rates that provide a specified end-effector twist. This is solved by inverting the Jacobian matrix. It can happen that the robot is in a configuration where the Jacobian does not have an inverse. These are termed singular configurations of the robot.

  8. Makeblock - Wikipedia

    en.wikipedia.org/wiki/Makeblock

    The most complex robot of the mBot series is aimed at users aged 12 and up. It includes an assembly guide of 10 designs that can be customized and adjusted. The kit contains more than 160 mechanical parts and modules, including Makeblock's MegaPi mainboard and is compatible with Arduino and Raspberry Pi .

  9. Motion planning - Wikipedia

    en.wikipedia.org/wiki/Motion_planning

    A configuration describes the pose of the robot, and the configuration space C is the set of all possible configurations. For example: If the robot is a single point (zero-sized) translating in a 2-dimensional plane (the workspace), C is a plane, and a configuration can be represented using two parameters (x, y).

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