Add to ORKGThis conference paper serves to examine the evolutionary linkages of a brachiating ancestor in humans, the biomechanical and neurophysiology of modern day brachiators, and the human rediscovery of this form of locomotion. Brachiation is arguably one of the most metabolically effective modes of travel by any organism and can be observed most meritoriously in Gibbons. The purpose of the research conducted for this paper was to encourage further exploration of the neurophysiological similarities and differences between humans and non-human primates. The hope is that in spurring more interest and research in this area, further possibilities for rehabilitating brain injury will be developed, or even theories on how to better train our athlete...
Gibbons are skilled brachiators but they are also highly capable leapers, crossing distances in exce...
The well-developed Achilles tendon in humans is generally interpreted as an adaptation for mechanica...
Motion analysis, as applied to evolutionary biomechanics, has experienced its own evolution over the...
It has been shown that gibbons are able to brachiate with very low mechanical costs. The conversion ...
It has been shown that gibbons are able to brachiate with very low mechanical costs. The conversion ...
It has been shown that gibbons are able to brachiate with very low mechanical costs. The conversion ...
It has been shown that gibbons are able to brachiate with very low mechanical costs. The conversion ...
This study gives a qualitative and quantitative description of the different terrestrial locomotor m...
Gibbons are highly arboreal apes, and it is expected that their bipedal locomotion will show some pa...
Old world monkeys, new world monkeys, and humans all originate from a common ancestor. Although huma...
The well-developed Achilles tendon in humans is generally interpreted as an adaptation for mechanica...
Old world monkeys, new world monkeys, and humans all originate from a common ancestor. Although huma...
This study investigates the foot and ankle myology of gibbons and bonobos, and compares it with the ...
Gibbons utilize a number of locomotor modes in the wild, including bipedalism, leaping and, most of ...
This study investigates the foot and ankle myology of gibbons and bonobos, and compares it with the ...
Gibbons are skilled brachiators but they are also highly capable leapers, crossing distances in exce...
The well-developed Achilles tendon in humans is generally interpreted as an adaptation for mechanica...
Motion analysis, as applied to evolutionary biomechanics, has experienced its own evolution over the...
It has been shown that gibbons are able to brachiate with very low mechanical costs. The conversion ...
It has been shown that gibbons are able to brachiate with very low mechanical costs. The conversion ...
It has been shown that gibbons are able to brachiate with very low mechanical costs. The conversion ...
It has been shown that gibbons are able to brachiate with very low mechanical costs. The conversion ...
This study gives a qualitative and quantitative description of the different terrestrial locomotor m...
Gibbons are highly arboreal apes, and it is expected that their bipedal locomotion will show some pa...
Old world monkeys, new world monkeys, and humans all originate from a common ancestor. Although huma...
The well-developed Achilles tendon in humans is generally interpreted as an adaptation for mechanica...
Old world monkeys, new world monkeys, and humans all originate from a common ancestor. Although huma...
This study investigates the foot and ankle myology of gibbons and bonobos, and compares it with the ...
Gibbons utilize a number of locomotor modes in the wild, including bipedalism, leaping and, most of ...
This study investigates the foot and ankle myology of gibbons and bonobos, and compares it with the ...
Gibbons are skilled brachiators but they are also highly capable leapers, crossing distances in exce...
The well-developed Achilles tendon in humans is generally interpreted as an adaptation for mechanica...
Motion analysis, as applied to evolutionary biomechanics, has experienced its own evolution over the...