Robert J. Webster scite author profile

Continuum robotics has rapidly become a rich and diverse area of research, with many designs and applications demonstrated. Despite this diversity in form and purpose, there exists remarkable similarity in the fundamental simplified kinematic models that have been applied to continuum robots. However, this can easily be obscured, especially to a newcomer to the field, by the different applications, coordinate frame choices, and analytical formalisms employed. In this paper we review several modeling approaches in a common frame and notational convention, illustrating that for piecewise constant curvature, they produce identical results. This discussion elucidates what has been articulated in different ways by a number of researchers in the past several years, namely that constant-curvature kinematics can be considered as consisting of two separate submappings: one that is general and applies to all continuum robots, and another that is robot-specific. These mappings are then developed both for the singlesection and for the multi-section case. Similarly, we discuss the decomposition of differential kinematics (the robot's Jacobian) into robot-specific and robot-independent portions. The paper concludes with a perspective on several of the themes of current research that are shaping the future of continuum robotics.

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Statics and Dynamics of Continuum Robots With General Tendon Routing and External Loading

Rucker

2011

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Mechanics of Precurved-Tube Continuum Robots

2009

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A Geometrically Exact Model for Externally Loaded Concentric-Tube Continuum Robots

2010

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Continuum robots, which are composed of multiple concentric, precurved elastic tubes, can provide dexterity at diameters equivalent to standard surgical needles. Recent mechanics-based models of these “active cannulas” are able to accurately describe the curve of the robot in free space, given the preformed tube curves and the linear and angular positions of the tube bases. However, in practical applications, where the active cannula must interact with its environment or apply controlled forces, a model that accounts for deformation under external loading is required. In this paper, we apply geometrically exact rod theory to produce a forward kinematic model that accurately describes large deflections due to a general collection of externally applied point and/or distributed wrench loads. This model accommodates arbitrarily many tubes, with each having a general preshaped curve. It also describes the independent torsional deformation of the individual tubes. Experimental results are provided for both point and distributed loads. Average tip error under load was 2.91 mm (1.5%–3% of total robot length), which is similar to the accuracy of existing free-space models.

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Toward Active Cannulas: Miniature Snake-Like Surgical Robots

2006

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Robert J. Webster

Design and Kinematic Modeling of Constant Curvature Continuum Robots: A Review

Statics and Dynamics of Continuum Robots With General Tendon Routing and External Loading

Mechanics of Precurved-Tube Continuum Robots

A Geometrically Exact Model for Externally Loaded Concentric-Tube Continuum Robots

Toward Active Cannulas: Miniature Snake-Like Surgical Robots

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