Feasibility Study and Modeling of Components for an Informational Space System Based on a Large Diffractive Membrane

Salmin, V. V.; Карпеев, С. В.; Peresypkin, Konstantin V.; Chetverikov, Alexey; Tkachenko, Ivan

doi:10.18287/1613-0073-2016-1638-132-148

Cited by 3 publications

(2 citation statements)

References 14 publications

(16 reference statements)

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“…This observation spacecraft can be defined as a large space structure: DOE assembly diameter is 10 meters, and the distance from the optical elements to the body of the spacecraft is 60 meters. The design of the frame that connects DOE to the body is discussed in detail in [2].…”

Section: Introductionmentioning

confidence: 99%

Modeling control over large space structure on geostationary orbit

Salmin¹,

Chetverikov²,

Peresypkin³

et al. 2017

Collection of Selected Papers of the III International Conference on Information Technology and Nanotechnology

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The paper considers the problem of control over a large space structure (LSS) control at a given station on a geostationary orbit (GSO). An observation spacecraft with diffractive optical elements (DOE) is taken as an example of a large space structure. Various perturbing factors influence the motion of a LSS along GSO, most notably solar radiation pressure. Two problems are considered: control over the motion of the center of mass, and control of the motion in relation to the center of mass. The paper gives the results of modeling the process of LSS control, based on developed control algorithms.

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Section: Introductionmentioning

confidence: 99%

Modeling control over large space structure on geostationary orbit

Salmin¹,

Chetverikov²,

Peresypkin³

et al. 2017

Collection of Selected Papers of the III International Conference on Information Technology and Nanotechnology

Self Cite

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“…The spacecraft with a membrane diffractive optical system will have a much smaller mass compared to a spacecraft with a refractive optical system. However, such a spacecraft would have large dimensions -the diameter of the lens is of the order of 10-20 m, the distance from the lens to the spacecraft body is of the order of 50 to 70 m. The paper [4] presents a design of the load-bearing structure for an Earth remote sensing satellite with diffractive optics (Figure 1). When such a structure is being propelled by a chemical booster block, significant overloads can occur, which can lead to undesirable structural changes of the diffractive observation system.…”

Section: Introductionmentioning

confidence: 99%

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

Anshakov¹,

Salmin²,

Chetverikov³

et al. 2017

Collection of Selected Papers of the III International Conference on Information Technology and Nanotechnology

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The article presents a formulation of a problem of trajectory optimization using low-thrust engines for an optical space system based on diffractive membranes. A methodology, where first stage nominal trajectories and control programs are selected and then corrected at the longrange guidance, has been developed for solving the problem of optimizing the trajectories of a flight to a geostationary orbit. At the final stage, algorithms for terminal control are formed, which allows to deliver a cosmic optical system based on diffraction membranes to a given point in the geostationary orbit. The end result is acquisition of Pareto-optimal solutions in the coordinates "characteristic speed-duration of the flight", where each point of the set of solutions has a corresponding a measure of accuracy of payload delivery to a geostationary orbit at a given set of coordinates.

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