Em publicação.We study the problem of formation shape control under the constraints on the thrust direction. Formations composed of small satellites are usually subject to serious limitations for power consumption, mass and volume of the Attitude and Orbit Control System (AOCS). If the purpose of the formation flying mission does not require precise tracking of a given relative trajectory, AOCS of satellites may be substantially simplified; however, the capacity of AOCS to ensure a bounded or even periodic relative motion has to be studied first. We consider a formation of two satellites; the deputy one is equipped with a passive attitude control system that provides one-axis stabilization and a propulsion system that consists of one or tw...
peer reviewedFormation flying of satellites is considered as a key space technology because of its p...
Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/76533/1/AIAA-8433-932.pd
This thesis addresses the problems of orbit and attitude control for satellite formation flying. ...
We study the problem of orbital control under the constraints on the thrust direction for a nonlinea...
A Newton-type method is proposed to improve the accuracy of control for relative motion of two satel...
peer reviewedThe control of the relative distance between the satellites in a formation is investiga...
Formation flying is a new paradigm in space mission design, aimed at replacing large satellites wit...
Large deltaV amounts are often required to maintain the relative geometry which is needed to impleme...
Abstract: The preprint is devoted to control algorithm development to nullify a relative s...
In this paper, the problem of autonomous optimal absolute orbit keeping for a satellite mission in L...
Formation flying missions have increased their importance thanks to the better performances that can...
Formation flying of spacecraft has gained a lot of interest within the engineering and scientific co...
peer reviewedThis paper provides a new, exact controller for formation-keeping in the presence of at...
A simple analytical approach for formation-keeping of satellites in the presence of both orbital and...
peer reviewedOver the past few years satellite formation flying has been extensively investigated as...
peer reviewedFormation flying of satellites is considered as a key space technology because of its p...
Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/76533/1/AIAA-8433-932.pd
This thesis addresses the problems of orbit and attitude control for satellite formation flying. ...
We study the problem of orbital control under the constraints on the thrust direction for a nonlinea...
A Newton-type method is proposed to improve the accuracy of control for relative motion of two satel...
peer reviewedThe control of the relative distance between the satellites in a formation is investiga...
Formation flying is a new paradigm in space mission design, aimed at replacing large satellites wit...
Large deltaV amounts are often required to maintain the relative geometry which is needed to impleme...
Abstract: The preprint is devoted to control algorithm development to nullify a relative s...
In this paper, the problem of autonomous optimal absolute orbit keeping for a satellite mission in L...
Formation flying missions have increased their importance thanks to the better performances that can...
Formation flying of spacecraft has gained a lot of interest within the engineering and scientific co...
peer reviewedThis paper provides a new, exact controller for formation-keeping in the presence of at...
A simple analytical approach for formation-keeping of satellites in the presence of both orbital and...
peer reviewedOver the past few years satellite formation flying has been extensively investigated as...
peer reviewedFormation flying of satellites is considered as a key space technology because of its p...
Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/76533/1/AIAA-8433-932.pd
This thesis addresses the problems of orbit and attitude control for satellite formation flying. ...