Checking the correct operation of main measuring instruments on the flight model and prototype of AIST small spacecraft

Checking the correct operation of main measuring instruments on the flight model and prototype of AIST small spacecraft

Flight model and prototype of AIST small spacecraft were launched in 2013 and 2014 respectively. They were used for carrying out various scientific researches, as well as testing the operation of AIST series small spacecrafts. They were operated in an uncontrolled flight and did not have a fullyfeat...

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Main Authors: Sedelnikov Andry, Khnyryova Ekaterina, Ivashova Tatiana
Format: Article
Language:English
Published: EDP Sciences 2018-01-01
Series:MATEC Web of Conferences
Online Access:https://doi.org/10.1051/matecconf/201823401007
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spelling doaj-b5a5553c6f4947dc992125bce22848932021-02-02T01:52:52ZengEDP SciencesMATEC Web of Conferences2261-236X2018-01-012340100710.1051/matecconf/201823401007matecconf_bultrans2018_01007Checking the correct operation of main measuring instruments on the flight model and prototype of AIST small spacecraftSedelnikov Andry0Khnyryova Ekaterina1Ivashova Tatiana2Samara National Research University, Department of Space EngineeringSamara National Research University, Department of Further MathematicsSamara National Research University, Faculty of Electronics and Instrument EngineeringFlight model and prototype of AIST small spacecraft were launched in 2013 and 2014 respectively. They were used for carrying out various scientific researches, as well as testing the operation of AIST series small spacecrafts. They were operated in an uncontrolled flight and did not have a fullyfeatured orbital motion control system. However, it has been possible to reduce the angular velocity by magnetorquers. To obtain the control laws, the angular velocity of small spacecraft was estimated by means of magnetometer sensors. On the flight model of AIST small spacecraft, the angular velocity reduction mode was used twice. In the first case, the angular velocity was reduced, in the second case, it did not change significantly. On the prototype of AIST small spacecraft, the angular velocity reduction mode was used three times. In all three cases, a significant increase in the angular velocity of small spacecraft rotation was observed. The paper describes a test for checking the magnetometer sensors correct operation. Based on this test, conclusions about the measuring equipment correct operation are made. Ineffective control of the angular velocity of small spacecraft rotation is most likely due to failure to take account of impact of scientific and supporting equipment on the measuring instruments.https://doi.org/10.1051/matecconf/201823401007
collection DOAJ
language English
format Article
sources DOAJ
author Sedelnikov Andry
Khnyryova Ekaterina
Ivashova Tatiana
spellingShingle Sedelnikov Andry
Khnyryova Ekaterina
Ivashova Tatiana
Checking the correct operation of main measuring instruments on the flight model and prototype of AIST small spacecraft
MATEC Web of Conferences
author_facet Sedelnikov Andry
Khnyryova Ekaterina
Ivashova Tatiana
author_sort Sedelnikov Andry
title Checking the correct operation of main measuring instruments on the flight model and prototype of AIST small spacecraft
title_short Checking the correct operation of main measuring instruments on the flight model and prototype of AIST small spacecraft
title_full Checking the correct operation of main measuring instruments on the flight model and prototype of AIST small spacecraft
title_fullStr Checking the correct operation of main measuring instruments on the flight model and prototype of AIST small spacecraft
title_full_unstemmed Checking the correct operation of main measuring instruments on the flight model and prototype of AIST small spacecraft
title_sort checking the correct operation of main measuring instruments on the flight model and prototype of aist small spacecraft
publisher EDP Sciences
series MATEC Web of Conferences
issn 2261-236X
publishDate 2018-01-01
description Flight model and prototype of AIST small spacecraft were launched in 2013 and 2014 respectively. They were used for carrying out various scientific researches, as well as testing the operation of AIST series small spacecrafts. They were operated in an uncontrolled flight and did not have a fullyfeatured orbital motion control system. However, it has been possible to reduce the angular velocity by magnetorquers. To obtain the control laws, the angular velocity of small spacecraft was estimated by means of magnetometer sensors. On the flight model of AIST small spacecraft, the angular velocity reduction mode was used twice. In the first case, the angular velocity was reduced, in the second case, it did not change significantly. On the prototype of AIST small spacecraft, the angular velocity reduction mode was used three times. In all three cases, a significant increase in the angular velocity of small spacecraft rotation was observed. The paper describes a test for checking the magnetometer sensors correct operation. Based on this test, conclusions about the measuring equipment correct operation are made. Ineffective control of the angular velocity of small spacecraft rotation is most likely due to failure to take account of impact of scientific and supporting equipment on the measuring instruments.
url https://doi.org/10.1051/matecconf/201823401007
work_keys_str_mv AT sedelnikovandry checkingthecorrectoperationofmainmeasuringinstrumentsontheflightmodelandprototypeofaistsmallspacecraft
AT khnyryovaekaterina checkingthecorrectoperationofmainmeasuringinstrumentsontheflightmodelandprototypeofaistsmallspacecraft
AT ivashovatatiana checkingthecorrectoperationofmainmeasuringinstrumentsontheflightmodelandprototypeofaistsmallspacecraft
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