Add to ORKGDespite many approaches proposed in the past, robotic climbing in a complex vertical environment is still a big challenge. We present here an alternative climbing technology that is based on thermoplastic adhesive (TPA) bonds. The approach has a great advantage because of its large payload capacity and viability to a wide range of flat surfaces and complex vertical terrains. The large payload capacity comes from a physical process of thermal bonding, while the wide applicability benefits from rheological properties of TPAs at higher temperatures and intermolecular forces between TPAs and adherends when being cooled down. A particular type of TPA has been used in combination with two robotic platforms, featuring different foot designs, inclu...
Using the gecko as inspiration, important principles are revealed for reliable maneuvering on vertic...
This paper presents the design of a legged robot with gecko-mimicking mechanism and mushroom-shaped ...
The ability to climb and manoeuvre on vertical surfaces is seemed as an easy task to nature’s climbe...
Vertical climbing on a variety of flat surfaces with a single robot has been previously demonstrated...
Robust climbing in unstructured environment has been one of the long-standing challenges in robotics...
Robust climbing in unstructured environments has been one of the long-standing challenges in robotic...
Climbing robots require an adhesion principle in order to overcome gravity. Many physical principles...
Robust climbing in unstructured environments is a long-standing challenge in robotics research. Rece...
This paper proposes an underactuated modular climbing robot with flat dry elastomer adhesives. This ...
The paper introduces a concept of flexible self-reconfiguration that makes use of thermoplastic adhe...
This chapter presents a comprehensive survey of the adhesion mechanisms and locomotion techniques us...
This chapter presents a comprehensive survey of the adhesion mechanisms and locomotion techniques us...
Dry, reusable, washable adhesives based upon Geckos' ability to take advantage of van der Waals forc...
A legged, climbing robot that adheres to surfaces using dry adhesion is presented. This style of rob...
This paper presents the design of a legged robot with gecko-mimicking mechanism and mushroom-shaped ...
Using the gecko as inspiration, important principles are revealed for reliable maneuvering on vertic...
This paper presents the design of a legged robot with gecko-mimicking mechanism and mushroom-shaped ...
The ability to climb and manoeuvre on vertical surfaces is seemed as an easy task to nature’s climbe...
Vertical climbing on a variety of flat surfaces with a single robot has been previously demonstrated...
Robust climbing in unstructured environment has been one of the long-standing challenges in robotics...
Robust climbing in unstructured environments has been one of the long-standing challenges in robotic...
Climbing robots require an adhesion principle in order to overcome gravity. Many physical principles...
Robust climbing in unstructured environments is a long-standing challenge in robotics research. Rece...
This paper proposes an underactuated modular climbing robot with flat dry elastomer adhesives. This ...
The paper introduces a concept of flexible self-reconfiguration that makes use of thermoplastic adhe...
This chapter presents a comprehensive survey of the adhesion mechanisms and locomotion techniques us...
This chapter presents a comprehensive survey of the adhesion mechanisms and locomotion techniques us...
Dry, reusable, washable adhesives based upon Geckos' ability to take advantage of van der Waals forc...
A legged, climbing robot that adheres to surfaces using dry adhesion is presented. This style of rob...
This paper presents the design of a legged robot with gecko-mimicking mechanism and mushroom-shaped ...
Using the gecko as inspiration, important principles are revealed for reliable maneuvering on vertic...
This paper presents the design of a legged robot with gecko-mimicking mechanism and mushroom-shaped ...
The ability to climb and manoeuvre on vertical surfaces is seemed as an easy task to nature’s climbe...