A pneumatically controlled soft robot with no rigid elements has great promise, for example in minimally invasive surgery, but also great challenges as the lack of rigidity violates rigid body assumptions fundamental to most robotic processes/systems. A soft robot design strategy that is complementary for a linear MIMO state-space control is proposed. Simplifying the overall structure such that it behaves as a linear dynamical system, affords a linearization (i.e., a Jacobian) over a greater span of the control space between the pneumatic inputs and output pose; offering a simple test for repeatability and reliability of the soft robot design. The paper details the mechanical components, electronics, manufacturing process, and a state-space...
This paper presents an experimental study to compare the performance of model-free control strategie...
Soft robot arms possess unique capabilities when it comes to adaptability, flexibility and dexterity...
For many years robotic researchers have been focused on developing robot sensing and control, while ...
Soft robotics is a rapidly evolving field where robots are fabricated using highly deformable materi...
During an age of technological innovation, automation has become more and more prevalent in various ...
Having to interact with people or dynamic environments, modern robots cannot rely anymore on rigid l...
Soft robotics is a growing field where scientists and engineers collaborate to design machines that ...
In this paper, we describe the design and analysis of a Soft Cubic Module (SCM) with ...
The use of soft robotics is becoming an increasingly researched topic, since they can provide more f...
Robots built from soft materials can alter their shape and size in a particular profile. This shape-...
The new generation of bio-inspired robots is constructed from soft materials. The low mechanical sti...
Soft robot arms possess unique capabilities when it comes to adaptability, flexibility, and dexterit...
Several benefits have been brought about by using Minimally Invasive Surgery (MIS), including faster...
Surgical robots for minimal access surgery are used to enhance surgeons' performance by motion scali...
This paper presents an experimental study to compare the performance of model-free control strategie...
Soft robot arms possess unique capabilities when it comes to adaptability, flexibility and dexterity...
For many years robotic researchers have been focused on developing robot sensing and control, while ...
Soft robotics is a rapidly evolving field where robots are fabricated using highly deformable materi...
During an age of technological innovation, automation has become more and more prevalent in various ...
Having to interact with people or dynamic environments, modern robots cannot rely anymore on rigid l...
Soft robotics is a growing field where scientists and engineers collaborate to design machines that ...
In this paper, we describe the design and analysis of a Soft Cubic Module (SCM) with ...
The use of soft robotics is becoming an increasingly researched topic, since they can provide more f...
Robots built from soft materials can alter their shape and size in a particular profile. This shape-...
The new generation of bio-inspired robots is constructed from soft materials. The low mechanical sti...
Soft robot arms possess unique capabilities when it comes to adaptability, flexibility, and dexterit...
Several benefits have been brought about by using Minimally Invasive Surgery (MIS), including faster...
Surgical robots for minimal access surgery are used to enhance surgeons' performance by motion scali...
This paper presents an experimental study to compare the performance of model-free control strategie...
Soft robot arms possess unique capabilities when it comes to adaptability, flexibility and dexterity...
For many years robotic researchers have been focused on developing robot sensing and control, while ...