Akademik Veri Yönetim Sistemi
Service Robotics, Volkan Sezer,Sinan Öncü,Pınar Boyraz Baykas, Editör, IntechOpen, London, ss.1-11, 2020
In service robotics, safe human-robot interaction (HRI) is still an open
research topic, requiring developments both in hardware and in software
as well as their integration. In UMAY1 and MEDICARE-C2projects, we
addressed both mechanism design and perception aspects of a framework
for safe HRI. Our first focus was to design variable stiffness joints
for the robotic neck and arm to enable inherent compliance to protect a
human collaborator. We demonstrate the advantages of variable stiffness
actuators (VSA) in compliancy, safety, and energy efficiency with
applications in exoskeleton and rehabilitation robotics. The
variable-stiffness robotic neck mechanism was later scaled down and
adopted in the robotic endoscope featuring hyper-redundancy. The
hyper-redundant structures are more controllable, having efficient
actuation and better feedback. Lastly, a smart robotic skin is
introduced to explain the safety support via enhancement of tactile
perception. Although it is developed for a hyper-redundant endoscopic
robotic platform, the artificial skin can also be integrated in service
robotics to provide multimodal tactile feedback. This chapter gives an
overview of systems and their integration to attain a safer HRI. We
follow a holistic approach for inherent compliancy via mechanism design
(i.e., variable stiffness), precise control (i.e., hyper-redundancy),
and multimodal tactile perception (i.e., smart robotic-skins).