Add to ORKGAbility to translate to a goal position under the constrains imposed by complex environmental conditions is a key capability for biological and artificial systems alike. Over billions of years evolutionary processes have developed a wide range of solutions to address mobility needs in air, in water and on land. The efficacy of such biological locomotors is beyond the capabilities of engineering solutions that has been produced to this date. Nature has been and will surely remain to be a source of inspiration for engineers in their quest to bring real mobility to their creations. In recent years a new class of dynamic legged terrestrial robotic systems \cite{Autumn-Buehler-Cutkosky.SPIE2005,Raibert.Book1986,Raibert-Blankesport-Nelson.IFAC2...
Legged robots have been developed since late 19th century and there have been made many research wor...
cient and robust locomotion is a crucial condition for the more extensive use of legged robots in re...
This dissertation describes an optimization-based framework to perform complex and dynamic locomotio...
Dynamic Legged Mobility---an Overview Ability to translate to a goal position under the constrains i...
The objective of this paper is to present the evolution and the state-of-theart in the area of legge...
Animals in nature display a nearly seamless capability to navigate the world around them. Whether ru...
Terrestrial robots must be capable of negotiating rough terrain if they are to become autonomous out...
Cheetahs and beetles run, dolphins and salmon swim, and bees and birds fly with grace and economy su...
Animal and human locomotion show a high agility and the ability to handle difficult terrain. The res...
The development of functional legged robots has encountered its limits in human-made actuation techn...
Legged animals can traverse significantly more of the Earth\u27s land mass than man-made wheeled and...
The legged locomotion system of biological quadrupeds has proven to be the most efficient in natural...
Over the last two decades the research and development of legged locomotion robots has grown steadil...
Terrestrial organisms adept at locomotion employ strut-like legs for economical and robust movement ...
Terrestrial organisms adept at locomotion employ strut-like legs for economical and robust movement ...
Legged robots have been developed since late 19th century and there have been made many research wor...
cient and robust locomotion is a crucial condition for the more extensive use of legged robots in re...
This dissertation describes an optimization-based framework to perform complex and dynamic locomotio...
Dynamic Legged Mobility---an Overview Ability to translate to a goal position under the constrains i...
The objective of this paper is to present the evolution and the state-of-theart in the area of legge...
Animals in nature display a nearly seamless capability to navigate the world around them. Whether ru...
Terrestrial robots must be capable of negotiating rough terrain if they are to become autonomous out...
Cheetahs and beetles run, dolphins and salmon swim, and bees and birds fly with grace and economy su...
Animal and human locomotion show a high agility and the ability to handle difficult terrain. The res...
The development of functional legged robots has encountered its limits in human-made actuation techn...
Legged animals can traverse significantly more of the Earth\u27s land mass than man-made wheeled and...
The legged locomotion system of biological quadrupeds has proven to be the most efficient in natural...
Over the last two decades the research and development of legged locomotion robots has grown steadil...
Terrestrial organisms adept at locomotion employ strut-like legs for economical and robust movement ...
Terrestrial organisms adept at locomotion employ strut-like legs for economical and robust movement ...
Legged robots have been developed since late 19th century and there have been made many research wor...
cient and robust locomotion is a crucial condition for the more extensive use of legged robots in re...
This dissertation describes an optimization-based framework to perform complex and dynamic locomotio...