Control of in-plane orbit parameters of a geostationary low-thrust satellite

Abstract: The article focuses on the development of algorithms for controlling the parameters of the orbit of a geostationary satellite with the help of a low- thrust engine. We consider only the control of two-dimensional parameters that define the position of the satellite in the orbital plane, namely, the orbit time, the eccentricity and the point longitude of satellite observation. A two-dimensional problem of geostationary spacecraft terminal control is formulated. It is assumed that the correction maneuver is carr… Show more

“…3. A discrete model for flat motion of a spacecraft under small transversal acceleration (with changes in orbit time, eccentricity and station longitude) was developed in [11], and an analytical solution for the problem of the search for the optimal control (lengths of powered and unpowered legs), minimizing final orbit time, eccentricity and station longitude errors, was obtained.…”

“…Orbit correction is carried out using low-thrust electric rocket engine that produces acceleration in the transversal direction. Discrete model of plane motion of geostationary satellites under the influence of small transversal acceleration is presented in as [11]:…”

Development of method for selecting motion control laws of space optical system on based diffractive membranes during transfer into geostationary orbit

“…3. A discrete model for flat motion of a spacecraft under small transversal acceleration (with changes in orbit time, eccentricity and station longitude) was developed in [11], and an analytical solution for the problem of the search for the optimal control (lengths of powered and unpowered legs), minimizing final orbit time, eccentricity and station longitude errors, was obtained.…”

“…Orbit correction is carried out using low-thrust electric rocket engine that produces acceleration in the transversal direction. Discrete model of plane motion of geostationary satellites under the influence of small transversal acceleration is presented in as [11]:…”

Development of method for selecting motion control laws of space optical system on based diffractive membranes during transfer into geostationary orbit

Insertion into Geostationary Orbit of a Spacecraft with Diffractive Orbit by Low Torque Electric Propulsion

Experience in Operating a Constellation of AIST Type Small Satellites with Samara University Ground Control Center and Perspective of Managing a Constellation of Satellites using a Distributed Network of Control Centers Based on Multiagent Approach