Bio-inspired musculoskeletal bipedal robots with tendon driven series elastic actuation including biarticular structures have the potential to outperform rigidly actuated robots. But the design, the control and the tuning of these bio-inspired robots are more complex than for their rigidly actuated counterparts. In this thesis new approaches to solving the problems arising from the bio-inspired design of robots are proposed and evaluated using a prototype series of musculoskeletal bipedal robots developed in the BioBiped project. This includes a systematic approach to tuning of hardware and software parameters in a hardware-in-the-loop optimization process with increased efficiency through the use of expert knowledge
Bioinspired legged locomotion comprises different aspects, such as (i) benefiting from reduced compl...
Thesis (S.B.)--Massachusetts Institute of Technology, Dept. of Mechanical Engineering, 2009.Cataloge...
This book covers three major topics, specifically Biomimetic Robot Design, Mechanical System Design ...
Bio-inspired musculoskeletal bipedal robots with tendon driven series elastic actuation including bi...
Bio-inspired legged robots with compliant actuation can potentially achieve motion properties in rea...
The design and tuning of bio-inspired musculoskeletal bipedal robots with tendon driven series elast...
Thesis (S.B.)--Massachusetts Institute of Technology, Dept. of Mechanical Engineering, 2007.Includes...
While much work in the area of robotics has attempted to replicate the power and agility of biologic...
Achieving bipedal robot locomotion performance that approaches human performance is a challenging re...
Die Dissertation ist gesperrt bis zum 17. März 2024 !Tiere führen komplexe Fortbewegungsaufgaben in ...
Thesis (S.B.)--Massachusetts Institute of Technology, Dept. of Mechanical Engineering, 2006.Includes...
This work is an experimental study and fabrication of design concepts to validate the feasibility of...
Biological systems are able to perform complex movements with high energy-efficiency and, in general...
Bipedal robotic locomotion in granular media presents a unique set of challenges at the intersection...
textIn humanoid robotics, there is a long pursuit of making bipeds capable of walking in highly unst...
Bioinspired legged locomotion comprises different aspects, such as (i) benefiting from reduced compl...
Thesis (S.B.)--Massachusetts Institute of Technology, Dept. of Mechanical Engineering, 2009.Cataloge...
This book covers three major topics, specifically Biomimetic Robot Design, Mechanical System Design ...
Bio-inspired musculoskeletal bipedal robots with tendon driven series elastic actuation including bi...
Bio-inspired legged robots with compliant actuation can potentially achieve motion properties in rea...
The design and tuning of bio-inspired musculoskeletal bipedal robots with tendon driven series elast...
Thesis (S.B.)--Massachusetts Institute of Technology, Dept. of Mechanical Engineering, 2007.Includes...
While much work in the area of robotics has attempted to replicate the power and agility of biologic...
Achieving bipedal robot locomotion performance that approaches human performance is a challenging re...
Die Dissertation ist gesperrt bis zum 17. März 2024 !Tiere führen komplexe Fortbewegungsaufgaben in ...
Thesis (S.B.)--Massachusetts Institute of Technology, Dept. of Mechanical Engineering, 2006.Includes...
This work is an experimental study and fabrication of design concepts to validate the feasibility of...
Biological systems are able to perform complex movements with high energy-efficiency and, in general...
Bipedal robotic locomotion in granular media presents a unique set of challenges at the intersection...
textIn humanoid robotics, there is a long pursuit of making bipeds capable of walking in highly unst...
Bioinspired legged locomotion comprises different aspects, such as (i) benefiting from reduced compl...
Thesis (S.B.)--Massachusetts Institute of Technology, Dept. of Mechanical Engineering, 2009.Cataloge...
This book covers three major topics, specifically Biomimetic Robot Design, Mechanical System Design ...