Modeling and path-following for a snake robot with active wheels

Murugendran, Boathy; Transeth, Aksel Andreas; Fjerdingen, Sigurd Aksnes

doi:10.1109/iros.2009.5353886

Cited by 25 publications

(13 citation statements)

References 14 publications

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“…Theorem 13: Consider a planar snake robot described by the model (17) and suppose that Assumption 9 is satisfied. If the look-ahead distance ∆ of the LOS guidance law (25) is chosen such that…”

Section: E Main Resultsmentioning

confidence: 99%

“…This gives the system more degrees of freedom and is utilized to follow a trajectory while simultaneously maintaining a high manipulability. Path following of a snake robot with active wheels is considered in [17], but no stability analysis of the controller is presented. The authors have previously employed Poincaré maps to study the stability properties of snake locomotion along a straight path [18].…”

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confidence: 99%

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Path following control of planar snake robots using a cascaded approach

Liljebäck

Haugstuen

Pettersen

2010

49th IEEE Conference on Decision and Control (CDC)

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Abstract-This paper considers path following control of snake robots along straight paths. Under the assumption that the forward velocity of the snake robot is nonzero and positive, we prove that the proposed path following controller K-exponentially stabilizes a snake robot to any desired straight path. The performance of the path following controller is investigated through simulations and through experiments with a physical snake robot where the controller successfully steers the snake robot towards and along the desired straight path.

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Section: E Main Resultsmentioning

confidence: 99%

mentioning

confidence: 99%

Path following control of planar snake robots using a cascaded approach

Liljebäck

Haugstuen

Pettersen

2010

49th IEEE Conference on Decision and Control (CDC)

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show abstract

“…With position and/or heading control [102], [103], [104], [105], [106], [14], [16], [107], [15], [108], [17], [60], [109], [110], [10], [111], [112], [113], [114].…”

Section: Flat Surface Locomotion With Sideslip Constraintsmentioning

confidence: 99%

“…Active wheels are also assumed in [114], where a path following controller for such snake robots is proposed on a kinematic level.…”

Section: Locomotion In Environments With Obstaclesmentioning

confidence: 99%

A review on modelling, implementation, and control of snake robots

Liljebäck

Pettersen

Stavdahl

et al. 2012

Robotics and Autonomous Systems

232

118

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This paper provides an overview of previous literature on snake robot locomotion. In particular, the paper considers previous research efforts related to modelling of snake robots, physical development of these mechanisms, and finally control design efforts for snake locomotion. The review shows that the majority of literature on snake robots so far has focused on locomotion over flat surfaces, but that there is a growing trend towards locomotion in environments that are more challenging, i.e. environments that are more in line with realistic applications of these mechanisms.

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“…Authors have also presented a mathematical model of the dynamics of a serpentine robot with active wheels and the new path-following approach based on control strategies for n-trailer vehicles [42]. The dynamic model is based on a non-minimal set of coordinates which is advantageous for numerical treatment of the system equations during simulations.…”

Section: Review Of Hypermobile Robotsmentioning

confidence: 99%

Hypermobile Robots – the Survey

Granosik

2013

J Intell Robot Syst

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This article presents a survey on hypermobile robots -a group of articulated mobile robots that typically comprise of several segments with powered wheels, tracks, or legs to propel the vehicle forward. Segments are connected by 2-or 3-degree-of-freedom (DOF) joints that may or may not be powered and provide better mobility as compared with regular mobile robots. The origins are analyzed and over 14 projects are compared in order to find the best methodology of designing and developing hypermobile robots.

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Modeling and path-following for a snake robot with active wheels

Cited by 25 publications

References 14 publications

Path following control of planar snake robots using a cascaded approach

Path following control of planar snake robots using a cascaded approach

A review on modelling, implementation, and control of snake robots

Hypermobile Robots – the Survey

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