This paper considers the problem of serpentine, or snake-like, locomotion from the perspective of geometric mechanics. A particular model based on Hirose's active cord mechanism is analyzed. Using the kinematic constraints, we develop a connection, which describes the net motion of the machine as a function of variations in the mechanism's shape variables. We present simulation results demonstrating three types of locomotive gaits, one of which bears an obvious resemblance to the serpentine motion of a snake. We also discuss how these algorithms can be used to optimize certain inputs given the particular choice of physical parameters for a snake robot
This thesis is motivated by the long-term goal of developing snake robots which can move in unknown ...
Snake robots are mostly designed based on single mode of locomotion. However, single mode gait most...
This paper presents a model of the kinematics and dynamics of a planar, wheelless snake robot aimed ...
This paper considers the problem of serpentine, or snake-like, locomotion from the perspective of ge...
In this paper, a novel serpentine gait generation method is proposed based on geometry mechanics. Fr...
We examine the problem of snake-like locomotion by studying a system consisting of a planar inextens...
: This paper uses geometric methods to study basic problems in locomotion. We consider in detail the...
This article presents our current work on studying energy efficient locomotion on crawling snake-lik...
A novel algorithm for snake robot locomotion is developed and analyzed in this paper. Serpentine is ...
Snake robots, sometimes called hyper-redundant mechanisms, can use their many degrees of freedom to ...
In a recent paper, the authors have proposed a control strategy for a snake robot during obstacle-ai...
Snake robots have the potential of contributing vastly in areas such as rescue missions, fire-fighti...
Analysis and simulations are performed for a simplified model of a commercially available variant of...
This paper presents a method for designing the gait of a snake robot that moves in a complicated env...
In snake robot research, one of the most efficient forms of locomotion is the lateral undulation. ...
This thesis is motivated by the long-term goal of developing snake robots which can move in unknown ...
Snake robots are mostly designed based on single mode of locomotion. However, single mode gait most...
This paper presents a model of the kinematics and dynamics of a planar, wheelless snake robot aimed ...
This paper considers the problem of serpentine, or snake-like, locomotion from the perspective of ge...
In this paper, a novel serpentine gait generation method is proposed based on geometry mechanics. Fr...
We examine the problem of snake-like locomotion by studying a system consisting of a planar inextens...
: This paper uses geometric methods to study basic problems in locomotion. We consider in detail the...
This article presents our current work on studying energy efficient locomotion on crawling snake-lik...
A novel algorithm for snake robot locomotion is developed and analyzed in this paper. Serpentine is ...
Snake robots, sometimes called hyper-redundant mechanisms, can use their many degrees of freedom to ...
In a recent paper, the authors have proposed a control strategy for a snake robot during obstacle-ai...
Snake robots have the potential of contributing vastly in areas such as rescue missions, fire-fighti...
Analysis and simulations are performed for a simplified model of a commercially available variant of...
This paper presents a method for designing the gait of a snake robot that moves in a complicated env...
In snake robot research, one of the most efficient forms of locomotion is the lateral undulation. ...
This thesis is motivated by the long-term goal of developing snake robots which can move in unknown ...
Snake robots are mostly designed based on single mode of locomotion. However, single mode gait most...
This paper presents a model of the kinematics and dynamics of a planar, wheelless snake robot aimed ...