Aerodynamic control system and method

What is claimed is: 1. An aerodynamic control system comprising: one or more flexible sheets configured to be coupled with a first vehicle in a vehicle system formed from the first vehicle and at least a second vehicle, the one or more flexible sheets configured to extend from the first vehicle and be coupled with the second vehicle to at least partially enclose an air volume in a gap between the first vehicle and the second vehicle, the one or more flexible sheets reducing aerodynamic drag exerted on the vehicle system during movement of the vehicle system relative to the vehicle system moving without the one or more flexible sheets extending from the first vehicle to the second vehicle; and a frame configured to extend across the gap between the first and second vehicles, the frame configured to be coupled with the one or more flexible sheets to support the one or more flexible sheets in the gap between the first and second vehicles, wherein the frame includes two or more elongated telescoping members configured to support the one or more flexible sheets and configured to telescope into each other as a size of the gap between the first and second vehicles changes during the movement of the vehicle system. 2. The control system of claim 1 , further comprising a spool configured to be coupled with the first vehicle, the one or more flexible sheets configured to be wound up onto the spool while the one or more flexible sheets are disconnected from the second vehicle, the one or more flexible sheets configured to unwind from the spool for coupling with the second vehicle. 3. The control system of claim 2 , wherein the spool is configured to be coupled with a motor that rotates the spool to one or more of wind up the one or more flexible sheets onto the spool or unwind the one or more flexible sheets from the spool. 4. The control system of claim 1 , further comprising one or more stiffening bodies configured to be coupled with the one or more flexible sheets, the one or more stiffening bodies increasing the rigidity of the one or more flexible sheets between the first and second vehicles. 5. The control system of claim 1 , further comprising a magnetic coupler attached to one end of the one or more flexible sheets, the magnetic coupler configured to secure the end of the one or more flexible sheets to the second vehicle. 6. An aerodynamic control system comprising: one or more flexible sheets configured to be coupled with a first vehicle in a vehicle system formed from the first vehicle and at least a second vehicle; and a frame configured to extend across a gap extending from the first vehicle to the second vehicle, the frame configured to be coupled with the one or more flexible sheets to support the one or more flexible sheets in the gap between the first and second vehicles, wherein the one or more flexible sheets are configured to extend from the first vehicle and be coupled with the second vehicle to at least partially enclose an air volume in a gap between the first vehicle and the second vehicle, the one or more flexible sheets reducing aerodynamic drag exerted on the vehicle system during movement of the vehicle system relative to the vehicle system moving without the one or more flexible sheets extending from the first vehicle to the second vehicle, wherein the frame includes two or more elongated telescoping members configured to support the one or more flexible sheets and configured to telescope into each other as a size of the gap between the first and second vehicles changes during the movement of the vehicle system. 7. The control system of claim 6 , wherein the members of the frame are rigid bodies. 8. The control system of claim 6 , wherein the members of the frame are flexible bodies such that the frame is configured to change shape as a size of the gap between the first and second vehicles changes during the movement of the vehicle system. 9. The control system of claim 6 , wherein the frame includes a handle and the frame is configured to move into a collapsed state where the frame and the one or more flexible sheets do not extend across the gap between the first and second vehicles to an expanded state where the frame and the one or more flexible sheets extend across the gap between the first and second vehicles responsive to pulling the handle. 10. The control system of claim 6 , further comprising a spool configured to be coupled with the first vehicle, the one or more flexible sheets configured to be wound up onto the spool while the one or more flexible sheets are disconnected from the second vehicle, the one or more flexible sheets configured to unwind from the spool for coupling with the second vehicle. 11. The control system of claim 10 , wherein the spool is configured to be coupled with a motor that rotates the spool to one or more of wind up the one or more flexible sheets onto the spool or unwind the one or more flexible sheets from the spool. 12. The control system of claim 6 , wherein the one or more flexible sheets, when extended from the first vehicle and coupled with the second vehicle, enclose at least 50% of the air volume in the gap between the first vehicle and the second vehicle as defined by a coextensive end area of bodies of the vehicles and one or more distances between the bodies of the vehicles within the coextensive end area. 13. The control system of claim 12 , wherein the one or more flexible sheets, when extended from the first vehicle and coupled with the second vehicle, enclose at least 90% of the air volume in the gap between the first vehicle and the second vehicle as defined by the coextensive end area of bodies of the vehicles and the one or more distances between the bodies of the vehicles within the coextensive end area. 14. A vehicle comprising: a vehicle frame; one or more flexible sheets configured to be coupled with the vehicle frame, the one or more flexible sheets configured to extend from the vehicle frame and be coupled with an additional vehicle frame of an additional vehicle to at least partially enclose an air volume in a gap between the vehicle frames, the one or more flexible sheets reducing aerodynamic drag exerted on a vehicle system that includes the vehicle frames during movement of the vehicle system relative to the vehicle system moving without the one or more flexible sheets extending between the vehicle frames; and a skirt assembly frame configured to extend across the gap between the vehicle frames, the skirt assembly frame configured to be coupled with the one or more flexible sheets to support the one or more flexible sheets in the gap between the vehicle frames, wherein the skirt assembly frame includes two or more elongated telescoping members configured to support the one or more flexible sheets and configured to telescope into each other as a size of the gap between the vehicle frames changes during the movement of the vehicle and the additional vehicle. 15. The vehicle of claim 14 , further comprising a spool configured to be coupled with the vehicle frame, the one or more flexible sheets configured to be wound up onto the spool while disconnected from the additional vehicle frame, the one or more flexible sheets configured to unwind from the spool for coupling with the additional vehicle frame. 16. The vehicle of claim 14 , wherein the one or more flexible sheets, when extended from the vehicle frame and coupled with the additional vehicle frame, enclose at least 50% of the air volume in the gap between the vehicle frames as defined by a coextensive end area of bodies of the vehicle and the additional vehicle and one o