Published Version
Open DOI LinkAbstract
This paper presents locomotion control for a robotic snake that adaptively travels over rugged terrain using obstacle as support. This kind of locomotion can typically be found in snakes in nature. The snake robot dealt with in this paper has an articulated structure in which all joints are actively driven. For locomotion on a flat terrain, joint torques distributed according to the curvature derivative of the body curve has been proved to be optimal under the condition that there is no lateral slippage at every part of the body. In this paper, the same method is applied to locomotion using two kinds of environmental supports; a narrow corridor surrounded by smoothly curved walls and a peg.
Full Text
Open DOI Link
Sign-in/Register to access full text options Topics from this Paper
Kind Of Locomotion- Snakes In Nature
- Lateral Slippage
- Rugged Terrain
- Flat Terrain + Show 5 more
Create a personalized feed of these topics
Get StartedTalk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a callSimilar Papers
Adaptive locomotion of a snake like robot based on curvature derivatives 
Relevant
Not Relevant
Oct 1, 2007
RelevantNot Relevant A Multi-Scale Validation Strategy for Albedo Products over Rugged Terrain and Preliminary Application in Heihe River Basin, China RelevantNot Relevant
Remote Sensing- Jan 24, 2018
RelevantNot Relevant Dynamic modeling and mobility analysis of the transforming roving–rolling explorer (TRREx) as it Traverses Rugged Martian Terrain RelevantNot Relevant
- Acta Astronautica
- Mar 1, 2016
RelevantNot Relevant Investigation of the Horizontal Displacement of Ground Surface Due to Longwall Mining RelevantNot Relevant
- Geotechnical and Geological Engineering
- May 25, 2020
RelevantNot Relevant Performance Assessment of Four Data-Driven Machine Learning Models: A Case to Generate Sentinel-2 Albedo at 10 Meters RelevantNot Relevant
- Remote Sensing
- May 22, 2023
RelevantNot Relevant Evaluation of Linear Kernel-Driven BRDF Models over Snow-Free Rugged Terrain RelevantNot Relevant
- Remote Sensing
- Jan 30, 2023
RelevantNot Relevant Approximation of Topographic Effect on Atmospheric Correction in Rugged Terrain RelevantNot Relevant
- Jun 3, 1991
RelevantNot Relevant 3D Locomotion of a Snake-like Robot Controlled by Cyclic Inhibitory CPG Model RelevantNot Relevant
- Oct 1, 2006
RelevantNot Relevant 3-dimensional Locomotion of a Snake-like Robot Controlled by
Cyclic Inhibitory CPG Model RelevantNot Relevant
- ACTA AUTOMATICA SINICA
- Jan 1, 2007
RelevantNot Relevant The Physical Fitness of Elderly Nepalese Farmers Residing in Rugged Mountain and Flat Terrain RelevantNot Relevant
- Journal of Gerontology
- Sep 1, 1985
RelevantNot Relevant The Effect of Terrain on Entheseal Changes in the Lower Limbs RelevantNot Relevant
- International Journal of Osteoarchaeology
- Jun 1, 2017
RelevantNot Relevant Extending a Linear Kernel-Driven BRDF Model to Realistically Simulate Reflectance Anisotropy Over Rugged Terrain RelevantNot Relevant
- IEEE Transactions on Geoscience and Remote Sensing
- Jan 1, 2022
RelevantNot Relevant Motion Investigation of a Snake Robot with Different Scale Geometry and Coefficient of Friction RelevantNot Relevant
- Robotics
- Apr 28, 2018
RelevantNot Relevant Radiometric correction for atmospheric and topographic effects on Landsat MSS images RelevantNot Relevant
- International Journal of Remote Sensing
- Apr 1, 1988
RelevantNot Relevant COYOTE PREDATION AND HABITAT SEGREGATION OF WHITE-TAILED DEER AND MULE DEER RelevantNot Relevant
- Ecology
- Jul 1, 2002
RelevantNot RelevantREAD MORE FROMThe Proceedings of the Dynamics & Design Conference
Study on control method for actuator of tire-suspension HILS system RelevantNot Relevant
- The Proceedings of the Dynamics & Design Conference
- Jan 1, 2022
RelevantNot Relevant Vibration Characteristics and Modeling of Human Focused on Seated Postures RelevantNot Relevant
- The Proceedings of the Dynamics & Design Conference
- Jan 1, 2022
RelevantNot Relevant Vibration optimization of laminated composites with curvilinear reinforcing fibers for shell structures RelevantNot Relevant
- The Proceedings of the Dynamics & Design Conference
- Jan 1, 2022
RelevantNot Relevant Study of Dynamic Stability of Air Floating System RelevantNot Relevant
- The Proceedings of the Dynamics & Design Conference
- Jan 1, 2022
RelevantNot Relevant High accuracy estimation technique of radiated sound from structural vibration by virtual sensing RelevantNot Relevant
- The Proceedings of the Dynamics & Design Conference
- Jan 1, 2022
RelevantNot Relevant Numerical and experimental study on multi-axis Dynamic Vibration Absorber with multidirectionally supported mass RelevantNot Relevant
- The Proceedings of the Dynamics & Design Conference
- Jan 1, 2022
RelevantNot Relevant An Attempt to Energy-Saving Driving for a Flexible Manipulator by Utilizing MFC RelevantNot Relevant
- The Proceedings of the Dynamics & Design Conference
- Jan 1, 2022
RelevantNot Relevant Sensitivity analysis using non-orthonormal basis which represents a local deformation RelevantNot Relevant
- The Proceedings of the Dynamics & Design Conference
- Jan 1, 2022
RelevantNot Relevant Quasi-optimal design of a parallel-type double-mass dynamic vibration absorber equipped with a damped primary system RelevantNot Relevant
- The Proceedings of the Dynamics & Design Conference
- Jan 1, 2022
RelevantNot Relevant Microstructure evaluation of urethane impregnated fibre Materials RelevantNot Relevant
- The Proceedings of the Dynamics & Design Conference
- Jan 1, 2022
RelevantNot Relevant