![]() In this report, we present a theory for how snakes slither, or how wheelless snake robots can be designed to slither, on relatively featureless terrain, such as sand or bare rock, which do not provide obvious push points. The details of this friction-based process, however, remain to be understood consequently, snake robots have been generally built to slither over flat surfaces by using passive wheels fixed to the body that resist lateral motion ( 18, 20– 22). ![]() Previous investigators ( 7, 9, 18, 19) have suggested that the frictional anisotropy of the snake's belly scales might play a role in locomotion over flat surfaces. This key assumption has informed numerous theoretical analyses ( 12– 17) and facilitated the design of snake robots for search-and-rescue operations. ![]() This report will focus on lateral undulation, whose utility to locomotion by snakes has been previously described on the basis of push points: Snakes slither by driving their flanks laterally against neighboring rocks and branches found along the ground ( 6– 11). Terrestrial snakes propel themselves by using a variety of techniques, including slithering by lateral undulation of the body, rectilinear progression by unilateral contraction/extension of their belly, concertina-like motion by folding the body as the pleats of an accordion, and sidewinding motion by throwing the body into a series of helices. Limbless invertebrates such as slugs propel themselves by generating lubrication forces with their mucus-covered bodies earthworms move by ratcheting: propulsion is achieved by engaging their hairs in the ground as they elongate and shorten their bodies ( 4, 5). These methods can be as efficient as legged locomotion ( 1) and moreover are particularly versatile when moving over uneven terrain or through narrow crevices, for which the possession of limbs would be an impediment ( 2, 3). Limbless creatures are slender and flexible, enabling them to use methods of locomotion that are fundamentally different from the more commonly studied flying, swimming, walking, and running used by similarly sized limbed or finned organisms.
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