J.C. del Toro scite author profile

In todays aging society, many people require mobility assistance, that can be provided by robotized assistive wheelchairs with a certain degree of autonomy when manual control is unfeasible due to disability.Robot wheelchairs, though, are not supposed to be completely in control because lack of human intervention may lead to loss of residual capabilities and frustration. Most of these systems rely on shared control, which typically consists of swapping control from human to robot when needed. However, this means that persons never deal with situations they find difficult. We propose a new shared control approach to allow constant cooperation between humans and robots, so that assistance may be adapted to the user's skills. Our proposal is based on the reactive navigation paradigm, where robot and human commands become different goals in a Potential Field. Our main novelty is that human and robot attractors are weighted by their respective local efficiencies at each time instant. This produces an emergent behavior that combines both inputs in an efficient, safe and smooth way and is dynamically adapted to the user's needs. The proposed control scheme has been successfully tested at hospital Fondazione Santa Lucia (FSL) in Rome with several volunteers presenting different disabilities.

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Natural landmark extraction for mobile robot navigation based on an adaptive curvature estimation

Núñez

Vázquez-Martín

Toro

et al. 2008

Robotics and Autonomous Systems

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Feature extraction from laser scan data based on curvature estimation for mobile robotics

Núñez

Vázquez-Martín

Toro

et al.

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This paper presents a geometrical feature detection system to use with conventional 2D laser rangefinders. This system consists of three main modules: data acquisition and pre-processing, rupture and breakpoint detection and feature extraction. The novelty of this system is a new efficient approach for natural feature extraction based on curvature estimation. This approach permits to extract and characterise line segments, corners and curve segments from the laser scan. Experimental results show that the proposed approach is very fast and permit to verify its effectiveness in indoor and outdoor environments.

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Retargeting System for a Social Robot Imitation Interface

Bandera

Marfil

López

et al. 2008

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Adaptive Observation Covariance for EKF-SLAM in Indoor Environments using Laser Data

Vázquez-Martín

Núñez

Toro

et al.

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J.C. del Toro

A new multi-criteria optimization strategy for shared control in wheelchair assisted navigation

Natural landmark extraction for mobile robot navigation based on an adaptive curvature estimation

Feature extraction from laser scan data based on curvature estimation for mobile robotics

Retargeting System for a Social Robot Imitation Interface

Adaptive Observation Covariance for EKF-SLAM in Indoor Environments using Laser Data

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