Traffic pattern control of UAVS and automated downwind extensions

What is claimed is: 1 . An aircraft landing pattern control system configured to allow a user to modify a landing pattern of an aircraft through a graphical user interface, the aircraft landing pattern control system comprising: a user interface module configured to display a graphical user interface on an operator device, wherein the graphical user interface is configured to control an aircraft during a mission while in mission mode, and wherein the graphical user interface comprises: a visual representation of the aircraft; one or more waypoints, wherein the one or more waypoints include an initial descent waypoint, a base waypoint, a final leg waypoint, and a landing waypoint; one or more flight legs, wherein the one or more flight legs include a downwind leg, a base leg, and a final leg, wherein the final leg is on a runway heading; one or more elements configured to display a current state of the aircraft; one or more elements configured to receive set point data from a user and transmit requests to the aircraft corresponding to the received set point data; and one or more flight maneuver buttons, wherein each of the one or more flight maneuver buttons corresponds to a predefined flight maneuver, and wherein a selection, by the user, of a first flight maneuver button triggers a request, transmitted to the aircraft, to perform a first predefined flight maneuver comprising a downwind extension flight maneuver; and a flight management system, operating on the aircraft, configured to: receive a first requests from the user interface module; update the mission based on the received first request; notify a ground control station that the mission has been modified; generate one or more autopilot commands corresponding to the updated mission; and control the aircraft based on the one or more autopilot commands. 2 . The aircraft landing pattern control system of claim 1 , wherein the received first request corresponds to a request to perform the first predefined flight maneuver, and wherein updating of the mission is based on the first predefined flight maneuver. 3 . The aircraft landing pattern control system of claim 2 , wherein the user interface module is further configured to: modify the first flight maneuver button to visually indicate a selection and a number of times a first flight maneuver has been performed by the aircraft; move the base waypoint and final leg waypoint to updated positions based on the updated mission; and redraw the downwind leg, base leg, and final leg based on the updated positions of the base waypoint and final leg waypoint. 4 . The aircraft landing pattern control system of claim 3 , wherein the updating of the mission comprises: modifying the base waypoint and the final leg waypoint, wherein the modifying comprises: moving the base waypoint and final leg waypoint by a first predetermined distance (Pd) in a direction opposite the runway heading; increasing the final leg waypoint's altitude by the equation tangent (3 degrees)*Pd, up to a predetermined traffic pattern altitude limit, to generate a new final leg waypoint altitude; and increasing the base waypoint's altitude to the new final leg waypoint altitude if the new final leg waypoint altitude is higher; and interpolating altitude from the aircraft to the modified base waypoint and from the modified base waypoint to the modified final leg waypoint. 5 . The aircraft landing pattern control system of claim 2 , wherein a second flight maneuver button selection corresponds to a turn-base maneuver; and wherein the user interface module is further configured to: modify the second flight maneuver button to visually indicate a selection by the user; move the base waypoint and final leg waypoint to updated positions based on the updated mission; and redraw the downwind leg, base leg, and final leg based on the updated positions of the base waypoint and final leg waypoint. 6 . The aircraft landing pattern control system of claim 5 , wherein the updating of the mission comprises: modifying the base waypoint and the final leg waypoint, wherein the modifying comprises: moving the base waypoint to a position that is a second predetermined distance in front of the aircraft, to generate a new base waypoint position; and moving the final leg waypoint to a position that is directly across from the new base waypoint position in a direction perpendicular to the runway heading and at an altitude that keeps it on a 3 degree glideslope relative to the final leg waypoint before being moved. 7 . The aircraft landing pattern control system of claim 2 , wherein a second flight maneuver button selection corresponds to a 360 degree maneuver; and wherein the user interface module is further configured to: modify the second flight maneuver button to visually indicate a selection by the user; display a button configured to generate a request to cancel the 360 degree maneuver; and display a circular flight path corresponding to the 360 degree maneuver. 8 . The aircraft landing pattern control system of claim 7 , wherein the updating of the mission comprises: calculating a first point at a third predetermined distance from the aircraft, wherein the first point is perpendicular to a leg being traveled; and generating a circular flight path centered at the first point, wherein a radius of the circular flight path is determined based on true airspeed of the aircraft and a nominal banking angle. 9 . The aircraft landing pattern control system of claim 8 , wherein the updating of the mission comprises adjusting the flight path to perform a climb during the 360 degree maneuver. 10 . The aircraft landing pattern control system of claim 8 , wherein the updating of the mission comprises adjusting the flight path to descend a predetermined amount during the 360 degree maneuver. 11 . A computer implemented method for modifying a landing pattern of an aircraft through a graphical user interface, the method comprising: displaying, by a user interface module, a graphical user interface on an operator device; controlling, by the graphical user interface, an aircraft during a mission and while in mission mode, wherein the graphical user interface comprises: a visual representation of the aircraft; one or more waypoints, wherein the one or more waypoints include an initial descent waypoint, a base waypoint, a final leg waypoint, and a landing waypoint; one or more flight legs, wherein the one or more flight legs include a downwind leg, a base leg, and a final leg, wherein the final leg is on a runway heading; one or more elements configured to display a current state of the aircraft; one or more elements configured to receive set point data from a user and transmit requests to the aircraft corresponding to the received set point data; and one or more flight maneuver buttons, wherein each of the one or more flight maneuver buttons corresponds to a predefined flight maneuver, and wherein a selection, by the user, of a first flight maneuver button triggers a request, transmitted to the aircraft, to perform a first predefined flight maneuver comprising a downwind extension flight maneuver; receiving, by a flight management system operating on the aircraft, a first requests from the user interface module; updating the mission based on the received first request; notifying a ground control station that the mission has been modified; generating one or more autopilot commands corresponding to the updated mission; and controlling the aircraft based on the one or more autopilot commands. 12 . The method of claim 11 , wherein the received first request corre