High dynamics of cable-driven parallel robots are beneficial to their use, however, the behavior of such robots during extreme maneuvers is yet to be investigated. In this paper, a simulation model is presented and validated in order to assess the emergency stop behavior of cable robots by simulation. Simulation results are evaluated using spectral analysis and validated against experimental data of a medium-sized redundantly restrained cable robot. The correctness and limitations of the model’s accuracy in a range of the actual system’s dynamics are furthermore shown
This thesis focuses on the dynamics of underactuated cable-driven parallel robots (UACDPRs), includi...
Cable robots (also called \u201ccable direct driven robots\u201d or \u201ccable driven parallel robo...
In this paper we propose a modeling strategy for Cable Driven Parallel Robots (CDPRs) that - given t...
Cable failure is an extremely critical situation in the operation of cable-driven parallel robots (C...
International audienceThis paper studies how emergencies and failures can be managed in cable-driven...
Cable-driven parallel robots offer several benefits in terms of workspace size and design cost with ...
International audienceIn this paper, an original method to analyze the vibrations of Cable-Driven Pa...
International audienceIn this paper, the static and dynamic performances of a cable-driven parallel ...
Cable Driven Robots are a new class of parallel manipulators in which rigid links are replaced by ca...
In this paper we study if approximated linear models are accurate enough to predict the vibrations o...
International audienceIn this paper, dynamic modeling of cable-driven parallel robots (CDPRs) is add...
This Master’s Thesis studies the problem of cable collisions with the environment for Cable-Driven P...
International audienceIn this paper, we present a simulator that has been developed using Gazebo and...
International audienceIn this paper, we present a simulator that has been developed using Gazebo and...
This thesis concerns the study of the modeling and control of cable-driven robots. A Cable-Driven Ro...
This thesis focuses on the dynamics of underactuated cable-driven parallel robots (UACDPRs), includi...
Cable robots (also called \u201ccable direct driven robots\u201d or \u201ccable driven parallel robo...
In this paper we propose a modeling strategy for Cable Driven Parallel Robots (CDPRs) that - given t...
Cable failure is an extremely critical situation in the operation of cable-driven parallel robots (C...
International audienceThis paper studies how emergencies and failures can be managed in cable-driven...
Cable-driven parallel robots offer several benefits in terms of workspace size and design cost with ...
International audienceIn this paper, an original method to analyze the vibrations of Cable-Driven Pa...
International audienceIn this paper, the static and dynamic performances of a cable-driven parallel ...
Cable Driven Robots are a new class of parallel manipulators in which rigid links are replaced by ca...
In this paper we study if approximated linear models are accurate enough to predict the vibrations o...
International audienceIn this paper, dynamic modeling of cable-driven parallel robots (CDPRs) is add...
This Master’s Thesis studies the problem of cable collisions with the environment for Cable-Driven P...
International audienceIn this paper, we present a simulator that has been developed using Gazebo and...
International audienceIn this paper, we present a simulator that has been developed using Gazebo and...
This thesis concerns the study of the modeling and control of cable-driven robots. A Cable-Driven Ro...
This thesis focuses on the dynamics of underactuated cable-driven parallel robots (UACDPRs), includi...
Cable robots (also called \u201ccable direct driven robots\u201d or \u201ccable driven parallel robo...
In this paper we propose a modeling strategy for Cable Driven Parallel Robots (CDPRs) that - given t...