Title of article
Modeling and identification of an electro-mechanical system: The LISA grabbing positioning and release mechanism case Original Research Article
Author/Authors
Daniele Bortoluzzi، نويسنده , , Pierre A. M?usli، نويسنده , , Riccardo Antonello، نويسنده , , Philipp M. Nellen، نويسنده ,
Issue Information
دوهفته نامه با شماره پیاپی سال 2011
Pages
13
From page
453
To page
465
Abstract
In the frame of space missions, mechanisms often constitute critical systems whose functionality and performance need to be tested on ground before the mission launch. The LISA scientific space mission will detect gravitational waves by measuring the relative displacement of pairs of free-floating test masses set into geodesic motion onboard of three spacecrafts. Inside each satellite, the injection of the test masses from the caged configuration into the geodesic trajectory will be performed by the grabbing positioning and release mechanism. To provide a successful injection, the test masses must be dynamically released with a minimal residual velocity against adhesion with the holding device. A parameter that determines the test mass residual velocity is the quickness of the retraction of the holding device. The need arises then to characterize the dynamic response of the release mechanism in order to predict its behaviour in the in-flight conditions. Once a validated model of the mechanism is available, the compliance of the system to the tight requirement on the maximum allowed residual velocity of the test mass may be verified. Starting from an electro-mechanical model of the mechanism dynamics, this paper presents the results of the experimental identification of its relevant parameters.
Keywords
Injection in geodesic motion , In-orbit release of objects , Ground testing of mechanism for space applications
Journal title
Advances in Space Research
Serial Year
2011
Journal title
Advances in Space Research
Record number
1133249
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