Journal ArticleDOI
Smooth Vertical Surface Climbing With Directional Adhesion
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TLDR
The design and fabrication methods used to create underactuated, multimaterial structures that conform to surfaces over a range of length scales from centimeters to micrometers are described.Abstract:
Stickybot is a bioinspired robot that climbs smooth vertical surfaces such as glass, plastic, and ceramic tile at 4 cm/s. The robot employs several design principles adapted from the gecko including a hierarchy of compliant structures, directional adhesion, and control of tangential contact forces to achieve control of adhesion. We describe the design and fabrication methods used to create underactuated, multimaterial structures that conform to surfaces over a range of length scales from centimeters to micrometers. At the finest scale, the undersides of Stickybot's toes are covered with arrays of small, angled polymer stalks. Like the directional adhesive structures used by geckos, they readily adhere when pulled tangentially from the tips of the toes toward the ankles; when pulled in the opposite direction, they release. Working in combination with the compliant structures and directional adhesion is a force control strategy that balances forces among the feet and promotes smooth attachment and detachment of the toes.read more
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Running up a wall: the role and challenges of dynamic climbing in enhancing multi-modal legged systems
TL;DR: This work explores several of the open questions related to the physical implementation of dynamic climbing, including investigation of substrate inclinations for which dynamic climbing is suited, mitigation of destabilizing out-of-plane dynamics and improvement of attachment reliability in the presence of dynamic effects.
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Sustainably Grown: The Underdog Robots of the Future
TL;DR: In this article , the authors explore how such developments in micro-robots will change our world in the relatively near future, and explore how bottom-up robotics, growing robots from a solution medium, as if they were bacteria.
Journal ArticleDOI
An Underactuated, Magnetic-Foot Robot for Steel Bridge Inspection
Anirban Mazumdar,H. Harry Asada +1 more
Journal ArticleDOI
Tendril-based climbing plants to model, simulate and create bio-inspired robotic systems
TL;DR: C climbing tendril-bearer plants that, by means of irritable filiform organs called tendrils, search for a support, grasp it and climb to gain height, have been used to study and develop an effective climbing robot.
Proceedings ArticleDOI
A systematic approach to creating terrain-capable hybrid soft/hard myriapod robots
TL;DR: The findings show that in order to produce an agile, robust locomotive device, the importance of body morphology and complex, dynamic interactions between an organism and its environment is understood through systematic experiments in both the laboratory and natural environment.
References
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Intermolecular and surface forces
TL;DR: The forces between atoms and molecules are discussed in detail in this article, including the van der Waals forces between surfaces, and the forces between particles and surfaces, as well as their interactions with other forces.
Journal ArticleDOI
Surface energy and the contact of elastic solids
TL;DR: In this paper, the influence of surface energy on the contact between elastic solids is discussed and an analytical model for its effect upon the contact size and the force of adhesion between two lightly loaded spherical solid surfaces is presented.
Journal ArticleDOI
Evidence for van der Waals adhesion in gecko setae
Kellar Autumn,Metin Sitti,Yiching A. Liang,Anne M. Peattie,Wendy R. Hansen,Simon Sponberg,Thomas W. Kenny,Ronald S. Fearing,Jacob N. Israelachvili,Robert J. Full +9 more
TL;DR: This work provides the first direct experimental evidence for dry adhesion of gecko setae by van der Waals forces, and suggests a possible design principle underlying the repeated, convergent evolution of dry adhesive microstructures in gecko, anoles, skinks, and insects.
Journal ArticleDOI
From micro to nano contacts in biological attachment devices.
TL;DR: An extensive microscopic study has shown a strong inverse scaling effect in these attachment devices, whereas μm dimensions of the terminal elements of the setae are sufficient for flies and beetles, geckos must resort to sub-μm devices to ensure adhesion.
Journal ArticleDOI
Analysis of Multifingered Hands
Jeffrey Kerr,Bernard Roth +1 more
TL;DR: This paper discusses three fundamental problems relating to grasping and manipulating objects within an articulated, multifingered hand: determining how hard to squeeze an ob ject in order to ensure a secure grasp, determining the finger- joint motions required to produce a desired motion of the object, and determining the workspace of the hand.