2016
DOI: 10.1016/j.actaastro.2015.12.034
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Design challenges and safety concept for the AVANTI experiment

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Cited by 21 publications
(14 citation statements)
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“…2, the off-line TM of AVANTI, together with GPS-raw data as well stored in the BIROS PPU, have been routinely processed by the experiment control center (ECC), also located in GSOC. Its main activities consisted in: (i) performing the relative precise orbit determination, benefiting from calibrated maneuvers information, to assess spaceborne navigation performance [32] and to re-initialize the onboard safety monitoring tool [15]; (ii) analyzing the extended TM to monitor the whole GNC behavior and to detect eventual anomalies; (iii) producing and validating the command timeline that encoded the high-level goals of subsequent phases of the experiment. These activities have been supported by dedicated tools of the AvantiSimulator, a QT-based C++ software environment (also featuring different on-need hardware-in-the-loop capabilities), evolved from the multi-satellite simulator test-bed in use in GSOC to design, integrate, validate, and support spaceborne formation-flying activities in the last decade [33,34].…”
Section: The Experiments Control Centermentioning
confidence: 99%
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“…2, the off-line TM of AVANTI, together with GPS-raw data as well stored in the BIROS PPU, have been routinely processed by the experiment control center (ECC), also located in GSOC. Its main activities consisted in: (i) performing the relative precise orbit determination, benefiting from calibrated maneuvers information, to assess spaceborne navigation performance [32] and to re-initialize the onboard safety monitoring tool [15]; (ii) analyzing the extended TM to monitor the whole GNC behavior and to detect eventual anomalies; (iii) producing and validating the command timeline that encoded the high-level goals of subsequent phases of the experiment. These activities have been supported by dedicated tools of the AvantiSimulator, a QT-based C++ software environment (also featuring different on-need hardware-in-the-loop capabilities), evolved from the multi-satellite simulator test-bed in use in GSOC to design, integrate, validate, and support spaceborne formation-flying activities in the last decade [33,34].…”
Section: The Experiments Control Centermentioning
confidence: 99%
“…For simplicity, time constraints are solved firstly to restrict the solution's domain. The remaining two tasks can be tackled sequentially thanks to the following peculiarities of the ROE framework: (i) the availability of a simple but accurate and complete closed-form state transition matrix for the perturbed relative motion; (ii) the geometrical meaning of each component of the ROE state; (iii) the possibility to easily and synthetically express the passive-safety property of a relative orbit as function of the ROE state components [15,39]; (iv) the functional structure of the relations between instantaneous variation of velocity in the local radial-tangential-normal (RTN) orbital frame and consequent effect on the ROE components [40]. All these features together allow transforming a time-dependent optimal control problem into a geometrical minimum-path problem in the ROE space, provided that the maneuvers scheduled to achieve each intermediate way-point are computed pursuing the same optimality criterion of the way-points planning step.…”
Section: Relative Orbit Guidance and Controlmentioning
confidence: 99%
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“…This peculiar relative motion is the consequence of the adopted passive formation safety concept which states that a minimum intersatellite distance will be guaranteed at any time, provided that δe and δi are properly phased. 16 The onboard autonomous guidance will have the task of reducing step by step the size of the spiral during the approach and of keeping the desired phasing of the relative eccentricity and inclination vectors.…”
Section: The Avanti Experimentsmentioning
confidence: 99%