This research explores the possibility of upscaling bio-inspired designed soft robots in transport engineering application with the focus on grabbing and manipulating break bulk such as windmill blades or rolls of steel. Upscaling current state soft robotic systems includes challenges regarding the structural strength of the robot. Also certain actuation methods could be affected by upscaling the actuators as well. The design of the proposed bio-inspired soft robot is determined by analysing the functions and constraints of the design as well as evaluating different types of gripping solutions based on the different types of shapes of the object. In this research the claw gripping is selected to be applied in break bulk manipulation. This g...
To improve the grasping power of soft robots, inspired by the scene of intertwined and interdependen...
Widely used robot systems have a rigid base structure that limits the interaction with their environ...
Compliant robots, i.e. robots that yield to external forces, have advantages compared to rigid robot...
This research explores the design and evaluation of the bio inspired soft robotic gripper for large ...
Since its inception, the robotics field target was to create robots alike humans and animals, indeed...
Traditional robots have rigid underlying structures that limit their ability to interact with their ...
The development of robotic devices able to perform manipulation tasks mimicking the human hand has b...
Imitating natural living beings remains a perpetual curiosity of human beings. The pursuit of replic...
The present article shows the development of a gripper for general purposes with grasping and holdin...
Development of soft robotic devices with grasping capabilities is an active research area. The inher...
In nature, manipulators have evolved into different morphologies with varying rigidity to accomplish...
This paper describes the design and development of a robot with six soft limbs, with the dual capabi...
The field of soft robotics aims to address the challenges faced by traditional rigid robots in less ...
Widely used robot systems have a rigid base structure that limits the interaction with their environ...
Widely used robot systems have a rigid base structure that limits the interaction with their environ...
To improve the grasping power of soft robots, inspired by the scene of intertwined and interdependen...
Widely used robot systems have a rigid base structure that limits the interaction with their environ...
Compliant robots, i.e. robots that yield to external forces, have advantages compared to rigid robot...
This research explores the design and evaluation of the bio inspired soft robotic gripper for large ...
Since its inception, the robotics field target was to create robots alike humans and animals, indeed...
Traditional robots have rigid underlying structures that limit their ability to interact with their ...
The development of robotic devices able to perform manipulation tasks mimicking the human hand has b...
Imitating natural living beings remains a perpetual curiosity of human beings. The pursuit of replic...
The present article shows the development of a gripper for general purposes with grasping and holdin...
Development of soft robotic devices with grasping capabilities is an active research area. The inher...
In nature, manipulators have evolved into different morphologies with varying rigidity to accomplish...
This paper describes the design and development of a robot with six soft limbs, with the dual capabi...
The field of soft robotics aims to address the challenges faced by traditional rigid robots in less ...
Widely used robot systems have a rigid base structure that limits the interaction with their environ...
Widely used robot systems have a rigid base structure that limits the interaction with their environ...
To improve the grasping power of soft robots, inspired by the scene of intertwined and interdependen...
Widely used robot systems have a rigid base structure that limits the interaction with their environ...
Compliant robots, i.e. robots that yield to external forces, have advantages compared to rigid robot...