Nombre: JOELSON DE CARVALHO ROCHA JÚNIOR
Tipo: MSc dissertation
Fecha de publicación: 13/12/2021
Supervisor:

Nombreorden descendente Papel
ANSELMO FRIZERA NETO Advisor *
RICARDO CARMINATI DE MELLO Co-advisor *

Junta de examinadores:

Nombreorden descendente Papel
ANSELMO FRIZERA NETO Advisor *
CAMILO ARTURO RODRIGUEZ DIAZ Internal Examiner *
PABLO JAVIER ALSINA External Examiner *
RICARDO CARMINATI DE MELLO Co advisor *

Sumario: Techniques for Human-Robot-Environment Interaction allow sharing control
between assistive devices, such as smart walkers, and its users by taking into account the human motion intention and dynamic environments composed of objects and people. Smart Walkers are service robots equipped with a series of sensors and actuators to provide locomotion assistance to impaired people. The complexity in the algorithms to process all the sensors data push researchers to study and explore concepts of cloud computing, called cloud robotic paradigms, in such platforms. This dissertation presents the design and development of an electronic architecture for cloud robotics applied to Smart Walker. Through this implementation, the robotic device, from now called UFES CloudWalker, is capable of acquiring and transferring data to a robust virtual machine which process and convert them in to control signals to the robot actuators. This Master’s Thesis presents a study of smart walkers as assistive devices, as well as, control interaction strategies between the human, the robotic device and the environment. Moreover, we developed a robot
environment interaction strategy which was evaluated in simulation and validated in real environment. The results showed the reliability of this strategy and boosted the development of a Human-Robot-Environment Interaction strategy in the same robotic device by adding information of the user’s legs. Finally, we validated this strategy in real environment with static and dynamic obstacles. The results show that the UFES CloudWalker adapts its behaviour accordingly changes in the environment and the user motion intentions.
Keywords: Human-Robot-Environment Interaction. Assistive devices. Smart
walkers. Cloud robotics. UFES CloudWalker.

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