Event
Wearable Robotic Technologies [SS202400062]
Type
lecture (V)Term
SS 2020SWS
2Language
Deutsch/EnglischAppointments
13Organisation
- ITM Beigl
Part of
Literature
Vorlesungsfolien und ausgewählte aktuelle Literaturangaben werden in der Vorlesung bekannt gegeben und als pdf unter http://www.humanoids.kit.edu verfügbar gemacht.
Appointments
- 20.04.2020 11:30 - 13:00 - Room: 50.34 Raum -102
- 27.04.2020 11:30 - 13:00 - Room: 50.34 Raum -102
- 04.05.2020 11:30 - 13:00 - Room: 50.34 Raum -102
- 11.05.2020 11:30 - 13:00 - Room: 50.34 Raum -102
- 18.05.2020 11:30 - 13:00 - Room: 50.34 Raum -102
- 25.05.2020 11:30 - 13:00 - Room: 50.34 Raum -102
- 08.06.2020 11:30 - 13:00 - Room: 50.34 Raum -102
- 15.06.2020 11:30 - 13:00 - Room: 50.34 Raum -102
- 22.06.2020 11:30 - 13:00 - Room: 50.34 Raum -102
- 29.06.2020 11:30 - 13:00 - Room: 50.34 Raum -102
- 06.07.2020 11:30 - 13:00 - Room: 50.34 Raum -102
- 13.07.2020 11:30 - 13:00 - Room: 50.34 Raum -102
- 20.07.2020 11:30 - 13:00 - Room: 50.34 Raum -102
Note
The lecture starts with an overview of wearable robot technologies (exoskeletons, prostheses and ortheses) and its potentials, followed by the basics of wearable robotics. In addition to different approaches to the design of wearable robots and their related actuator and sensor technology, the lecture focuses on modeling the neuromusculoskeletal system of the human body and the physical and cognitive human-robot interaction for tightly coupled hybrid human-robot systems. Examples of current research and various applications of lower, upper and full body exoskeletons as well as prostheses are presented.
Learning Objectives:
The students have received fundamental knowledge about wearable robotic technologies and understand the requirements for the design, the interface to the human body and the control of wearable robots. They are able to describe methods for modelling the human neuromusculoskeletal system, the mechatronic design, fabrication and composition of interfaces to the human body. The students understand the symbiotic human–machine interaction as a core topic of Anthropomatics and have knowledge of state of the art examples of exoskeletons, ortheses and protheses.