Mostrando 9 resultados de: 9
Filtros aplicados
A Comparative Study between NMPC and Baseline Feedback Controllers for UAV Trajectory Tracking
ArticleAbstract: Transport, rescue, search, surveillance, and disaster relief tasks are some applications that can bePalabras claves:Nonlinear control, Optimal Control, quadrotor UAV, Trajectory trackingAutores:Bryan S. Guevara, Gandolfo D.C., José Varela-Aldás, Luis F. Recalde, Toibero M., Víctor Hugo AndaluzFuentes:scopusControl of bidirectional physical human–robot interaction based on the human intention
ArticleAbstract: This paper presents a control strategy for human–robot interaction with physical contact, recognizinPalabras claves:Bidirectional interaction, Human–robot interaction, Impedance, Lyapunov, roboticAutores:Carelli R., Monllor M., Paulo Leica, Roberti F., Toibero M.Fuentes:scopusAdaptive dynamic path following control of an unicycle-like mobile robot
Conference ObjectAbstract: This work presents a new adaptive dynamic control to solve the path following problem for the unicycPalabras claves:compensation dynamic, Dynamic model, Path followingAutores:Carelli R., Roberti F., Toibero M., Víctor Hugo Andaluz, Wagner B.Fuentes:googlescopusAdaptive unified motion control of mobile manipulators
ArticleAbstract: This paper presents a unified motion controller for mobile manipulators which not only solves the prPalabras claves:adaptive control, mobile manipulator, Non-linear systems, Stability proof, Unified motion controlAutores:Carelli R., Roberti F., Toibero M., Víctor Hugo AndaluzFuentes:googlescopusDynamic obstacle avoidance based on time-variation of a potential field for robots formation
Conference ObjectAbstract: This paper presents a new dynamic obstacle avoidance strategy based on time-variation of a potentialPalabras claves:Dynamic environments, Dynamic obstacle avoidance, null space, potential function, robot formationAutores:Carelli R., Marco A. Herrera, Paulo Leica, Roberti F., Rosales C., Toibero M.Fuentes:scopusPassivity-based visual feedback control with dynamic compensation of mobile manipulators: Stability and <sup>L 2</sup>-gain performance analysis
ArticleAbstract: This paper addresses the problem of visual dynamic control based on passivity to solve the target trPalabras claves:mobile manipulator, non-linear control, Passivity based control, Visual ServoingAutores:Carelli R., Roberti F., Salinas L.R., Toibero M., Víctor Hugo AndaluzFuentes:googlescopusMobile Robot for Telepresence Applications: Design, Construction, and Programming
Conference ObjectAbstract: This work presents a differential drive mobile robot design for telepresence applications. It consisPalabras claves:ROBOT MÓVIL, Seguimiento de personas, TELEPRESENCIAAutores:Fredy Rivera, Julio Montesdeoca, Mateo Mendieta, Pablo Quichimbo, Rivera Calle Fredy, Toibero M.Fuentes:googlescopusVisual control with adaptive dynamical compensation for 3D target tracking by mobile manipulators
ArticleAbstract: In this paper an image-based dynamic visual feedback control for mobile manipulators is presented toPalabras claves:3D target tracking, mobile manipulator, stability analysis, Visual controlAutores:Carelli R., Roberti F., Salinas L.R., Toibero M., Víctor Hugo AndaluzFuentes:googlescopusSwitching control signal for bilateral tele-operation of a mobile manipulator
Conference ObjectAbstract: This paper presents both the design and the implementation of a bilateral teleoperation system for aPalabras claves:Autores:Carelli R., Roberti F., Salinas L.R., Toibero M., Víctor Hugo AndaluzFuentes:googlescopus