Proceedings ArticleDOI
Wall climbing robot using soft robotics
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The aim of this paper is to develop a lightweight wall climbing robot which is based on the soft-robotics concept which uses the pneumatic system for the locomotion purpose of the robot.Abstract:
The aim of this paper is to develop a lightweight wall climbing robot which is based on the soft-robotics concept. This approach uses the pneumatic system for the locomotion purpose of the robot. The robot is a prototype for inspection applications aboard the pipe inspections both inside and outside the pipe. From recent studies, we came across the pneumatic actuators which actuate when pressurized i.e. when a particular amount of air is pumped in. These actuators can be considered as a single degree of freedom (DOF), as they have just a single bending side. In this project, we have used three such kinds of actuators which act as the 3 (DOF). The robot design and initial experimental results are presented including the stress and strain calculation.read more
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Recent Patents on Wall Climbing Robot with Negative Pressure Adsorption
TL;DR: The comparative analysis for the latest patents related to wall climbing robot with negative pressure adsorption can provide some meaningful reference for the optimal design of this kind of robot.
References
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Journal ArticleDOI
A compliant, underactuated hand for robust manipulation
Lael U. Odhner,Leif P. Jentoft,Mark R. Claffee,Nicholas Roy Corson,Yaroslav Tenzer,Raymond R. Ma,Martin Buehler,Robert Kohout,Robert D. Howe,Aaron M. Dollar +9 more
TL;DR: The iRobot-Harvard-Yale (iHY) Hand is introduced, an underactuated hand driven by five actuators that is capable of performing a wide range of grasping and in-hand repositioning tasks.
Journal ArticleDOI
Mechanical Programming of Soft Actuators by Varying Fiber Angle
TL;DR: In this article, the authors investigate the influence of fiber angle on the deformation of fiber-reinforced soft fluidic actuators and examine the manner in which these actuators extend axially, expand radially and twist about their axis as a function of input pressure.
Posted Content
A Compliant, Underactuated Hand for Robust Manipulation
Lael U. Odhner,Leif P. Jentoft,Mark R. Claffee,Nicholas Roy Corson,Yaroslav Tenzer,Raymond R. Ma,Martin Buehler,Robert Kohout,Robert D. Howe,Aaron M. Dollar +9 more
TL;DR: The i-HY Hand as discussed by the authors is an underactuated hand driven by five actuators that is capable of performing a wide range of grasping and in-hand manipulation tasks on mobile robots.