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edX Robotics Foundations I - Robot Modeling

University of Naples Federico II via edX

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  • Overview
  1. edX
    Platform:
    edX
    Provider:
    University of Naples Federico II
    Length:
    8 weeks
    Effort:
    8 to 10 hours per week
    Language:
    English
    Credentials:
    Paid Certificate Available
    Overview
    Robotics is commonly defined as the study of the intelligent connection between perception and action. As such, the full scope of robotics lies at the intersection of mechanics, electronics, signal processing, control engineering, computing, and mathematical modeling.

    Within this very broad framework, modeling and control play a basic role - not only in the traditional context of industrial robotics, but also for the advanced applications of field and service robots, which have attracted increasing interest from the research community in the last twenty years.

    This course explores robot modeling and control. It presents Kinematic models of both robot manipulators and mobile robots. The Jacobian matrix is introduced as the fundamental tool to describe differential kinematics, determine singular configurations, analyze redundancy, derive the statics model and formulate inverse kinematics algorithms.

    The equations of motion of a robotic system are found on the basis of the dynamic model, which is useful for motion simulation and control algorithm synthesis. Model-based control offers the best performance for tracking motion trajectories suitably planned in either joint or operational space. Controlling the interaction of a robot with the environment requires the adoption of force control and/or visual control. All such control techniques rely on effective parameter estimation methods. On the other hand, for mobile robots, trajectory planning methods have to properly account for the nonholonomic constraints, and the motion control problem is tackled with reference to two tasks: trajectory tracking and posture regulation.

    What you'll learn
    • The fundamentals of kinematics, statics, and trajectory planning
    • The technology of actuators, sensors, and control units
    • Dynamics and motion control of robot manipulators
    • Environmental interaction using exteroceptive sensory data (force and vision)
    • Mobile robots and motion planning
    Taught by
    Bruno Siciliano

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