Litcius/Paper detail

A First Evaluation of a Multi-Modal Learning System to Control Surgical Assistant Robots via Action Segmentation

Giacomo De Rossi, Marco Minelli, Serena Roin, Fabio Falezza, Alessio Sozzi, Federica Ferraguti, Francesco Setti, Marcello Bonfè, Cristian Secchi, Riccardo Muradore

2021IEEE Transactions on Medical Robotics and Bionics29 citationsDOIOpen Access PDF

Abstract

The next stage for robotics development is to introduce autonomy and cooperation with human agents in tasks that require high levels of precision and/or that exert considerable physical strain. To guarantee the highest possible safety standards, the best approach is to devise a deterministic automaton that performs identically for each operation. Clearly, such approach inevitably fails to adapt itself to changing environments or different human companions. In a surgical scenario, the highest variability happens for the timing of different actions performed within the same phases. This paper presents a cognitive control architecture that uses a multi-modal neural network trained on a cooperative task performed by human surgeons and produces an action segmentation that provides the required timing for actions while maintaining full phase execution control via a deterministic Supervisory Controller and full execution safety by a velocity-constrained Model-Predictive Controller.

Topics & Concepts

Computer scienceTask (project management)Controller (irrigation)SegmentationAction (physics)RoboticsArtificial intelligenceModalAutomatonRobotControl (management)Machine learningControl engineeringReal-time computingHuman–computer interactionEngineeringSystems engineeringPhysicsChemistryAgronomyQuantum mechanicsPolymer chemistryBiologyTeleoperation and Haptic SystemsRobot Manipulation and LearningSoft Robotics and Applications