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Digital Library of the
European Council for Modelling and Simulation |
Title: |
Flexible Modeling And Simulation
Architecture For Haptic Control Of Maritime Cranes
And Robotic Arm |
Authors: |
Filippo Sanfilippo, Hans Petter
Hildre, VilmarAEsoy, Houxiang Zhang, Eilif Pedersen |
Published in: |
(2013).ECMS 2013 Proceedings edited
by: W. Rekdalsbakken, R. T. Bye, H. Zhang European Council for Modeling
and Simulation. doi:10.7148/2013 ISBN:
978-0-9564944-6-7 27th
European Conference on Modelling and Simulation, Aalesund, Norway, May 27th –
30th, 2013 |
Citation
format: |
Filippo Sanfilippo,
Hans Petter Hildre, VilmarAEsoy, Houxiang Zhang, Eilif Pedersen (2013). Flexible Modeling And Simulation
Architecture For Haptic Control Of Maritime Cranes
And Robotic Arm, ECMS 2013 Proceedings edited by: W. Rekdalsbakken, R. T. Bye,
H. Zhang, European Council for Modeling and Simulation. doi:10.7148/2013-0235 |
DOI: |
http://dx.doi.org/10.7148/2013-0235 |
Abstract: |
This
paper introduces a modular prototyping system architecture that allows for
the modeling, simulation and control of different maritime cranes or robotic
arms with different kinematic structures and degrees of freedom using the Bond
Graph Method. The resulting models are simulated in a virtual environment
and controlled using the same input haptic device, which
also provides the user with a valuable force feedback. The arm joint angles
can be calculated at runtime according to the specific model of the robot to
be controlled. The
idea is to develop a library of crane beams, joints and actuator models that
can be used as modules for simulating different cranes. The base module of
this architecture is the crane beam model. Using different joint modules to
connect several such models, different crane prototypes can be easily built.
The library also includes a simplified model of a vessel to which the crane
models can be connected in order to get a complete model. Related
simulations were carried out using the so-called 20-sim simulator to validate efficiency and flexibility of the proposed
architecture. In particular, a two-beam crane model connected to a simplified
vessel model was implemented. To control the arm, an omega.7 from
Force Dimension was used as an input haptic device. |
Full
text: |