Patent ID: 8437892

Claim:
A method of establishing a primary formation of a plurality of directionally fixed satellites, the plurality of satellites comprising an anchor satellite and at least one non-anchor satellite, each satellite of the plurality of satellites comprising at least one drag flap, each satellite of the plurality of satellites being free of one of a propulsion system and an expendable mass propellant, the method comprising: determining a position and velocity of each satellite of the plurality of satellites after deployment thereof from a launch vehicle; designating a satellite of the plurality of satellites having a highest mean velocity as the anchor satellite; determining a current spacing and a current separation rate of each non-anchor satellite with respect to the anchor satellite based on the determined position and velocity of the each satellite; predicting a final spacing of the plurality of satellites based on the current spacing and the current separation rate of the each non-anchor satellite, solar and lunar perturbing gravitational conditions, earth gravitational conditions, solar radiation pressure, and an atmospheric density model; applying control using at least one processor to deploy the at least one drag flap of the at least one non-anchor satellite based on the current spacing and the current separation rate of the each non-anchor satellite, and the predicted final spacing of the plurality of satellites; and repeating the final spacing predicting and the drag flap control applying until the current separation rate has been nulled to within a threshold value, wherein said repeating the final spacing predicting and the drag flap control applying until the current separation rate has been nulled to within the threshold value is performed after the current separation rate has been reduced by a predetermined percentage relative to its value at a time of drag flap deployment.