Arama Sonuçları - "Cincinnati"

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Dynamics of Parallel Robots Yazar: Staicu, Stefan

İçindekiler: “…1 Introduction -- 1.1 Robotic systems -- 1.2 Historical development -- 1.3 Mechanics of robots -- 2 Matrix kinematics of the rigid body -- 2.1 Position and orientation of a rigid body -- 2.2 Velocity field -- 2.3 Acceleration field -- 2.4 Twist of velocity field of a rigid body -- 2.5 Types of rigid body motions -- 3 Matrix kinematics of composed motion -- 3.1 Kinematics of composed motion of a point -- 3.2 Kinematics of composed motion of a rigid body -- 3.3 Application to kinematics analysis of mechanisms -- 4 Kinetics of the rigid body -- 4.1 Centre of mass and tensor of static moments of a rigid body -- 4.2 Moments of inertia of a rigid body -- 4.3 Kinetic impulse of a system of particles -- 4.4 Kinetic moment of a rigid body -- 4.5 Kinetic energy of a rigid body -- 4.6 Power and work of the forces acting on a system of particles -- 4.7 Power and work of the forces acting on a rigid body -- 5 Dynamics of the rigid body -- 5.1 Fundamental system of differential equations of motion for a system of particles -- 5.2 Theorem of kinetic impulse -- 5.3 Theorem of kinetic moment -- 5.4 Theorem of kinetic moment with respect to a translating frame -- 5.5 Theorem of kinetic energy -- 5.6 Conservation of mechanical energy -- 5.7 Theorem of kinetic energy with respect to a translating frame -- 5.8 Equations of motion in dynamics of the rigid body -- 6 Analytical Mechanics -- 6.1 Principle of virtual work -- 6.2 D'Alembert principle -- 6.3 Lagrange equations -- 6.4 Canonical Hamiltonian equations -- 7 Dynamics of constrained robotic systems -- 7.1 Geometric model of the robot -- 7.2 Velocities and accelerations -- 7.3 Equations of motion -- 7.4 Advantages of the present method -- 7.5 Application to dynamics analysis of mechanisms -- 8 Planar parallel robots -- 8.1 Power requirement comparison in dynamics of the 3-PRR planar parallel robot -- 8.2 Internal reaction joint forces in dynamics of the 3-RRR planar parallel robot -- 8.3 Inverse kinematics and dynamics of a 3-PRP planar parallel robot -- 9 Spatial parallel robots -- 9.1 Dynamics modelling of Delta translational parallel robot -- 9.2 Inverse dynamics of Agile Wrist spherical parallel robot -- 9.3 Dynamics of the 6-6 Stewart parallel manipulator -- 9.4 Internal joint forces in dynamics of a 3-RPS parallel manipulator -- 10 Geared parallel mechanisms -- 10.1 Kinematics and dynamics analysis of the Minuteman cover drive -- 10.2 Inverse dynamics of a 2-DOF orienting gear train -- 10.3 Dynamics analysis of the Cincinnati-Milacron wrist robot -- 11 Mobile wheeled robots -- 11.1 Kinematics and dynamics of a mobile robot provided with caster wheel -- 11.2 Dynamics of the non-holonomic two-wheeled pendulum robot -- 12 Kinematics and dynamics of a hybrid parallel manipulator -- 12.1 Structural description of the hybrid parallel manipulator -- 12.2 Kinematics analysis -- 12.3 Inverse dynamics model -- References.…”
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