초록 ▼

A method for sensing and monitoring ICBM threats using a constellation of earth orbiting satellites. The method includes arranging a first and a second plurality of threat sensing satellites in earth orbit. The first plurality is selected to have a first prograde orbit plane with a first inclination

A method for sensing and monitoring ICBM threats using a constellation of earth orbiting satellites. The method includes arranging a first and a second plurality of threat sensing satellites in earth orbit. The first plurality is selected to have a first prograde orbit plane with a first inclination angle between about 30�� to 70�� with respect to the earth's equator and an Argument of Perigee equal to about 270��. The second plurality is selected to have a first retrograde orbit plane with a second inclination angle between about 110�� to 150�� with respect to the earth's equator and an Argument of Perigee equal to about 270��. The second inclination angle is selected to be a symmetric conjugate of the first inclination angle. The first and second plurality of threat sensing satellites are distributed respectively within the first prograde and first retrograde orbits with a Walker distribution of T/P/1. Synchronization of a plurality of epochs of the first plurality of satellites with a plurality of epochs of the second plurality of satellites is performed to provide uniform inter-plane satellite spacing for improved monitoring of an ICBM threat.

대표청구항 ▼

The invention claimed is: 1. A method for sensing and monitoring ICBM threats using a constellation of earth orbiting satellites, comprising: arranging a first plurality of threat sensing satellites in earth orbit with a first, common prograde orbit plane with a first inclination defining a first a

The invention claimed is: 1. A method for sensing and monitoring ICBM threats using a constellation of earth orbiting satellites, comprising: arranging a first plurality of threat sensing satellites in earth orbit with a first, common prograde orbit plane with a first inclination defining a first angle between about 30�� to 70�� with respect to the earth's equator and an Argument of Perigee equal to about 270��; arranging a second plurality of threat sensing satellites in earth orbit with a first, common retrograde orbit plane and a second inclination defining a second angle between about 110�� to 150�� with respect to the earth's equator and an Argument of Perigee equal to about 270��; selecting said second angle formed by said second retrograde orbit plane to be a symmetric conjugate of said first angle formed by said first prograde orbit plane; distributing said first and second plurality of threat sensing satellites respectively within said first prograde orbit and said first retrograde orbit with a Walker distribution of T/P/1; synchronizing a plurality of epochs of said first plurality of threat sensing satellites with a plurality of epochs of said second plurality of threat sensing satellites to provide uniform inter-plane satellite spacing; and monitoring an ICBM threat with at least one of said first and second plurality of threat sensing satellites. 2. The method for sensing and monitoring ICBM threats according to claim 1, further comprising the step of selecting an apogee for said first and second plurality of threat sensing satellites within a range of between about 100 km and 10,000 km. 3. The method for sensing and monitoring ICBM threats according to claim 2, further comprising the step of selecting a perigee for said first and second plurality of threat sensing satellites within a range of between about 100 km and 10,000 km. 4. The method of sensing and monitoring ICBM threats according to claim 1, further comprising the steps of selecting said first plurality of threat sensing satellites to be 5 or 6 threat sensing satellites in said first prograde orbit plane and selecting said second plurality of threat sensing satellites to be 5 or 6 threat sensing satellites in said first retrograde orbit plane. 5. The method of sensing and monitoring ICBM threats according to claim 1, further comprising the step of distributing said first and second plurality of threat sensing satellites respectively within said first prograde orbit and said first retrograde orbit with a Walker distribution selected from the group consisting of 5/1/1, 6/1/1, and 6/2/1. 6. The method of sensing and monitoring ICBM threats according to claim 1, further comprising the steps of: arranging a third plurality of threat sensing satellites in earth orbit with a second, common prograde orbit plane with a third inclination defining a third angle with respect to the earth's equator; arranging a fourth plurality of threat sensing satellites in earth orbit with a second, common retrograde orbit plane and a fourth inclination defining a fourth angle with respect to the earth's equator; and selecting said fourth angle formed by said second retrograde orbit plane to be a symmetric conjugate of said third angle formed by said second prograde orbit plane. 7. The method of sensing and monitoring ICBM threats according to claim 6, further comprising the step of selecting said second prograde orbit plane and said second retrograde orbit plane to be identical to said first prograde orbit plane and said first retrograde orbit plane, respectively, with the exception of being longitudinally rotated 90��. 8. The method of sensing and monitoring ICBM threats according to claim 1, further comprising selecting at least one orbital parameter of said first and second plurality of threat sensing satellites to minimize a range between at least one of said first and second plurality of threat sensing satellites and an anticipated trajectory of an ICBM missile threat. 9. The method of sensing and monitoring ICBM threats according to claim 8, further comprising the step of selecting at least a second orbital parameter of said first and second plurality of threat of threat sensing satellites to minimize a range between at least one of said first and second plurality of threat sensing satellites and an anticipated trajectory of an interceptor vehicle directed toward said ICBM missile threat. 10. The method of sensing and monitoring ICBM threats according to claim 9, further comprising the step of determining an optimized value for at least one of said first and second orbital parameters using a numerical simulation program.