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Description
In this article we present a program that is supplemental to a low-cost force-sensing quadrupedal laminate robot platform previously developed by Ben Shuch. The robot has four legs with two degrees of freedom apiece. Each leg is a four-bar mechanism

In this article we present a program that is supplemental to a low-cost force-sensing quadrupedal laminate robot platform previously developed by Ben Shuch. The robot has four legs with two degrees of freedom apiece. Each leg is a four-bar mechanism controlled by two servo motors. The program that has been developed allows the user to predict the force distribution of the robot based on its configuration and the angle of the ground it is standing on. Through the use of this program, future students working on research involving this robot will be able to calculate the force distribution of the robot based on its configuration and generate ideal configurations of the robot using data gathered from force sensors attached to its feet.


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Details

Title
  • Creating a 2D Python Simulation for a Quadruped Robot to Simulate Balancing in Changing Ground Conditions
Contributors
Date Created
2020-05
Resource Type
  • Text
  • Machine-readable links