Your search keyword '"Puente, Santiago Timoteo"' showing total 3 results

1. Visual-tactile manipulation to collect household waste in outdoor

Author

Castaño-Amorós, Julio, Páez-Ubieta, Ignacio de Loyola, Gil, Pablo, and Puente, Santiago Timoteo

Subjects

Computer Science - Robotics

Abstract

This work presents a perception system applied to robotic manipulation, that is able to assist in navigation, household waste classification and collection in outdoor environments. This system is made up of optical tactile sensors, RGBD cameras and a LiDAR. These sensors are integrated on a mobile platform with a robot manipulator and a robotic gripper. Our system is divided in three software modules, two of them are vision-based and the last one is tactile-based. The vision-based modules use CNNs to localize and recognize solid household waste, together with the grasping points estimation. The tactile-based module, which also uses CNNs and image processing, adjusts the gripper opening to control the grasping from touch data. Our proposal achieves localization errors around 6 %, a recognition accuracy of 98% and ensures the grasping stability the 91% of the attempts. The sum of runtimes of the three modules is less than 750 ms., Comment: in Spanish language

Published

2024

2. Manipulación visual-táctil para la recogida de residuos domésticos en exteriores

Author

Castaño-Amorós, Julio, Páez-Ubieta, Ignacio de Loyola, Gil, Pablo, Puente, Santiago Timoteo, Universidad de Alicante. Departamento de Física, Ingeniería de Sistemas y Teoría de la Señal, Universidad de Alicante. Instituto Universitario de Investigación Informática, and Automática, Robótica y Visión Artificial

Subjects

Reconocimiento de objetos, Percepción táctil, Robotic manipulation, General Computer Science, Object location, Control and Systems Engineering, Detección visual, Localización de objetos, Visual detection, Object recognition, Tactile perception, Manipulación robótica

Abstract

[EN] This work presents a perception system applied to robotic manipulation, that is able to assist in navegation, household waste classification and collection in outdoor environments. This system is made up of optical tactile sensors, RGBD cameras and a LiDAR. These sensors are integrated on a mobile platform with a robot manipulator and a robotic gripper. Our system is divided in three software modules, two of them are vision-based and the last one is tactile-based. The vision-based modules use CNNs to localize and recognize solid household waste, together with the grasping points estimation. The tactile-based module, which also uses CNNs and image processing, adjusts the gripper opening to control the grasping from touch data. Our proposal achieves localization errors around 6 %, a recognition accuracy of 98% and ensures the grasping stability the 91% of the attempts. The sum of runtimes of the three modules is less than 750 ms., [ES] Este artículo presenta un sistema de percepcion orientado a la manipulación robótica, capaz de asistir en tareas de navegación, clasificacion y recogida de residuos domésticos en exterior. El sistema está compuesto de sensores táctiles ópticos, cámaras RGBD y un LiDAR. Estos se integran en una plataforma móvil que transporta un robot manipulador con pinza. El sistema consta de tres modulos software, dos visuales y uno táctil. Los módulos visuales implementan arquitecturas CNNs para la localización y reconocimiento de residuos sólidos, además de estimar puntos de agarre. El módulo táctil, también basado en CNNs y procesamiento de imagen, regula la apertura de la pinza para controlar el agarre a partir de informacion de contacto. Nuestra propuesta tiene errores de localizacion entorno al 6 %, una precisión de reconocimiento del 98 %, y garantiza estabilidad de agarre el 91 % de las veces. Los tres modulos trabajan en tiempos inferiores a los 750 ms., Este trabajo ha sido financiado con Fondos Europeos de Desarrollo Regional (FEDER), el gobierno de la Generalitat Valenciana a través del proyecto PROMETEO/2021/075, y los recursos computaciones fueron financiados a traves de la ayuda IDIFEDER/2020/003.

Published

2022

3. TEACHING IMAGE AND VIDEO PROCESSING WITH A PRACTICAL CASES-BASED METHODOLOGY AT THE UNIVERSITY OF ALICANTE

Author

Gil, Pablo, primary, García, Gabriel Jesús, additional, Puente, Santiago Timoteo, additional, Mateo, Carlos Manuel, additional, Alacid, Beatriz, additional, and Mira, Damian, additional

Published

2016