Marco Faroni scite author profile

Combining task and motion planning efficiently in human-robot collaboration (HRC) entails several challenges because of the uncertainty conveyed by the human behavior. Tasks plan execution should be continuously monitored and updated based on the actual behavior of the human and the robot to maintain productivity and safety. We propose control-based approach based on two layers, i.e., task planning and action planning. Each layer reasons at a different level of abstraction: task planning considers high-level operations without taking into account their motion properties; action planning optimizes the execution of high-level operations based on current human state and geometric reasoning. The result is a hierarchical framework where the bottom layer gives feedback to top layer about the feasibility of each task, and the top layer uses this feedback to (re)optimize the process plan. The method is applied to an industrial case study in which a robot and a human worker cooperate to assemble a mosaic.

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Model Predictive Control for operator-in-the-loop overhead cranes

Giacomelli

Faroni

Gorni

et al. 2018

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In this paper, a Model Predictive Control approach for the velocity control of operator-in-the loop overhead cranes is proposed. The operator can select the maximum position overshoot as a tuning parameter for the method. Simulations provide a comparison between the proposed method and the well known Zero Vibration input shaping technique, showing its effectiveness in controlling the payload oscillations.

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Marco Faroni

Predictive Inverse Kinematics for Redundant Manipulators With Task Scaling and Kinematic Constraints

An MPC Framework for Online Motion Planning in Human-Robot Collaborative Tasks

A Predictive Approach to Redundancy Resolution for Robot Manipulators

A Layered Control Approach to Human-Aware Task and Motion Planning for Human-Robot Collaboration

Model Predictive Control for operator-in-the-loop overhead cranes

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