Towards Washout Filter Concepts for Motion Simulators on the Base of a Stewart Platform

Klemens Springer; Hubert Gattringer; Hartmut Bremer

Towards Washout Filter Concepts for Motion Simulators on the Base of a Stewart Platform

Klemens Springer, Hubert Gattringer, Hartmut Bremer

Institute of Robotics

Research output: Chapter in Book/Report/Conference proceeding › Conference proceedings › peer-review

Abstract

In this paper we present a pneumatically driven Stewart platform as a basis for motion simulators. Motion platforms, that simulate perceived situations in aeroplanes, cars or ships, have workspace constraints in every degree of freedom. Therefore it is necessary to adapt the accelerations and angular rates in order to stay within the physical restrictions. For realizing a flight or ride simulator on the basis of the Stewart platform, "Washout Filters" are used to change the signals of the open source software FlightGear and to minimize the sensation error between simulator and aircraft. Different filter concepts are implemented and evaluated. The platform presented in this document is a parallel kinematic robot, driven by fluidic muscles. The pneumatically actuated muscles are only able to produce tensile forces. Therefore a spiral spring from a passenger car is used to apply the compressive forces and torques.

Original language	English
Title of host publication	Special Issue: 82nd Annual Meeting of the International Association of Applied Mathematics and Mechanics (GAMM)
Number of pages	2
Publication status	Published - 2011

Fields of science

203022 Technical mechanics
203013 Mechanical engineering
202035 Robotics
203015 Mechatronics

JKU Focus areas

Mechatronics and Information Processing

Cite this

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title = "Towards Washout Filter Concepts for Motion Simulators on the Base of a Stewart Platform",

abstract = "In this paper we present a pneumatically driven Stewart platform as a basis for motion simulators. Motion platforms, that simulate perceived situations in aeroplanes, cars or ships, have workspace constraints in every degree of freedom. Therefore it is necessary to adapt the accelerations and angular rates in order to stay within the physical restrictions. For realizing a flight or ride simulator on the basis of the Stewart platform, {"}Washout Filters{"} are used to change the signals of the open source software FlightGear and to minimize the sensation error between simulator and aircraft. Different filter concepts are implemented and evaluated. The platform presented in this document is a parallel kinematic robot, driven by fluidic muscles. The pneumatically actuated muscles are only able to produce tensile forces. Therefore a spiral spring from a passenger car is used to apply the compressive forces and torques.",

author = "Klemens Springer and Hubert Gattringer and Hartmut Bremer",

year = "2011",

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booktitle = "Special Issue: 82nd Annual Meeting of the International Association of Applied Mathematics and Mechanics (GAMM)",

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TY - GEN

T1 - Towards Washout Filter Concepts for Motion Simulators on the Base of a Stewart Platform

AU - Springer, Klemens

AU - Gattringer, Hubert

AU - Bremer, Hartmut

PY - 2011

Y1 - 2011

N2 - In this paper we present a pneumatically driven Stewart platform as a basis for motion simulators. Motion platforms, that simulate perceived situations in aeroplanes, cars or ships, have workspace constraints in every degree of freedom. Therefore it is necessary to adapt the accelerations and angular rates in order to stay within the physical restrictions. For realizing a flight or ride simulator on the basis of the Stewart platform, "Washout Filters" are used to change the signals of the open source software FlightGear and to minimize the sensation error between simulator and aircraft. Different filter concepts are implemented and evaluated. The platform presented in this document is a parallel kinematic robot, driven by fluidic muscles. The pneumatically actuated muscles are only able to produce tensile forces. Therefore a spiral spring from a passenger car is used to apply the compressive forces and torques.

AB - In this paper we present a pneumatically driven Stewart platform as a basis for motion simulators. Motion platforms, that simulate perceived situations in aeroplanes, cars or ships, have workspace constraints in every degree of freedom. Therefore it is necessary to adapt the accelerations and angular rates in order to stay within the physical restrictions. For realizing a flight or ride simulator on the basis of the Stewart platform, "Washout Filters" are used to change the signals of the open source software FlightGear and to minimize the sensation error between simulator and aircraft. Different filter concepts are implemented and evaluated. The platform presented in this document is a parallel kinematic robot, driven by fluidic muscles. The pneumatically actuated muscles are only able to produce tensile forces. Therefore a spiral spring from a passenger car is used to apply the compressive forces and torques.

M3 - Conference proceedings

BT - Special Issue: 82nd Annual Meeting of the International Association of Applied Mathematics and Mechanics (GAMM)

ER -