An Integrated Design and Simulation Environment for Rapid Prototyping of Laminate Robotic Mechanisms
Laminate mechanisms are a reliable concept in producing lowcost robots for educational and commercial purposes. These mechanisms are produced using low-cost manufacturing techniques which have improved significantly during recent years and are more accessible to novices and hobbyists. However, itera...
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Zusammenfassung: | Laminate mechanisms are a reliable concept in producing lowcost robots for
educational and commercial purposes. These mechanisms are produced using
low-cost manufacturing techniques which have improved significantly during
recent years and are more accessible to novices and hobbyists. However,
iterating through the design space to come up with the best design for a robot
is still a time consuming and rather expensive task and therefore, there is
still a need for model-based analysis before manufacturing. Until now, there
has been no integrated design and analysis software for laminate robots. This
paper addresses some of the issues surrounding laminate analysis by introducing
a companion to an existing laminate design tool that automates the generation
of dynamic equations and produces simulation results via rendered plots and
videos. We have validated the accuracy of the software by comparing the
position, velocity and acceleration of the simulated mechanisms with the
measurements taken from physical laminate prototypes using a motion capture
system. |
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DOI: | 10.48550/arxiv.1808.03697 |