Mean of Microaccelerations Estimate in the Small Spacecraft Internal Environment with the Use of Fuzzy Sets

Assessment of parameters of rotary motion of the small spacecraft around its center of mass and of microaccelerations using measurements of current from silicon photocells is carried out. At the same time there is a problem of interpretation of ambiguous telemetric data. Current from two opposite sides of the small spacecraft is significant. The mean of removal of such uncertainty is considered. It is based on an fuzzy set. As membership function it is offered to use a normality condition of the direction cosines. The example of uncertainty removal for a prototype of the Aist small spacecraft is given. The offered approach can significantly increase the accuracy of microaccelerations estimate when using measurements of current from silicon photocells.

[1]  A. V. Sedel’nikov,et al.  The problem of estimating microaccelerations aboard Foton-M4 spacecraft , 2017 .

[2]  A. V. Sedel’nikov Fast Analysis of Onboard Measurements of the Earth Magnetic Field for the Purpose of Microaccelerations Decrement on Board of the “AIST” Small Spacecraft During its Uncontrolled Orbital Flight , 2018 .

[3]  A. Sedel'nikov,et al.  Probabilistic estimation of fulfilling favorable conditions to realize the gravity-sensitive processes aboard a space laboratory , 2013 .

[4]  K. I. Potienko,et al.  How to Estimate Microaccelerations for Spacecraft with Elliptical Orbit , 2016 .

[5]  A. V. Sedel’nikov,et al.  Study of Effective Application of Electric Jet Engine as a Mean to Reduce Microacceleration Level , 2015 .

[6]  A. Sedelnikov Fractal assessment of microaccelerations at weak damping of natural oscillation in spacecraft elastic elements. II , 2007 .

[7]  M. Schwabe,et al.  Latest Results on Complex Plasmas with the PK-3 Plus Laboratory on Board the International Space Station , 2018 .

[8]  A. V. Sedel’nikov,et al.  Simulation of a flexible spacecraft motion to evaluate microaccelerations , 2009 .

[9]  V. I. Abrashkin,et al.  A simplified technique for determining the rotational motion of a satellite based on the onboard measurements of the angular velocity and magnetic field of the Earth , 2016 .

[10]  V. Shevtsova,et al.  Onsite vibrational characterization of DCMIX2/3 experiments , 2017 .

[11]  V. Shevtsova,et al.  Stability of a stationary plane-parallel flow of a ternary fluid between two vertical plates maintained at constant different temperatures , 2018, The European physical journal. E, Soft matter.

[12]  J. M. Ezquerro,et al.  Thermodiffusion in Ternary Mixtures of Water/Ethanol/Triethylene Glycol: First Report on the DCMIX3-Experiments Performed on the International Space Station , 2018 .

[14]  A. V. Sedel’nikov,et al.  Classification of Microaccelerations According to Methods of their Control , 2015 .

[15]  A. Davydov Determination of parameters of attitude motion of a small communication satellite using the data of measurements of current of solar panels , 2011 .

[16]  Danil Ivanov,et al.  Magnetic attitude control systems for small satellites , 2016 .

[17]  N. D. Semkin,et al.  Uncontrolled attitude motion of the small satellite Aist , 2015 .

[18]  A. V. Sedel’nikov,et al.  Alternative solutions to increase the duration of microgravity calm period on board the space laboratory , 2011 .