References
Akimoto K, Watanabe S, Yano M. 1999. An Insect Robot Controlled by the Emergence of Gait Patterns. Artificial Life Robotics 3, 102-105.
Centre for Design Research. 2012. Sprawl Robots; Fast, Robust Hexapods Functionally Inspired by Nature. http://www-cdr.stanford.edu/biomimetics/ accessed 19th September 2012
Damus C. 1996. What Did Insects Come From? http://park.org/Canada/Museum/insects/origins/origins.html Accessed 17th September 2012.
Delcomyn F. 2008. From Insect Sense Organs to Biomimetic Walking Robots. IEEE Signal Processing Magazine, 25(1), 134-137.
Gullan P & Cranston P. 2005. The Insects: An Outline of Entomology. Blackwell, Malden.
Paulson L. 2004. Biomimetic Robots. Computer, 37(9), 48-53.
Ritzmann R, Quinn R, Fischer M. 2004. Convergent Evolution and Locomotion Through Complex Terrain by Insects, Vertebrates and Robots. Anthropod Structure & Development 33(3), 361-379.
Centre for Design Research. 2012. Sprawl Robots; Fast, Robust Hexapods Functionally Inspired by Nature. http://www-cdr.stanford.edu/biomimetics/ accessed 19th September 2012
Damus C. 1996. What Did Insects Come From? http://park.org/Canada/Museum/insects/origins/origins.html Accessed 17th September 2012.
Delcomyn F. 2008. From Insect Sense Organs to Biomimetic Walking Robots. IEEE Signal Processing Magazine, 25(1), 134-137.
Gullan P & Cranston P. 2005. The Insects: An Outline of Entomology. Blackwell, Malden.
Paulson L. 2004. Biomimetic Robots. Computer, 37(9), 48-53.
Ritzmann R, Quinn R, Fischer M. 2004. Convergent Evolution and Locomotion Through Complex Terrain by Insects, Vertebrates and Robots. Anthropod Structure & Development 33(3), 361-379.