Airborne vehicle recovery

What is claimed is: 1. A propulsionless flight device, comprising: a flight body in the shape of a flying wing and having an aerodynamic response to an airflow generated in response to a free fall, the flying wing having a central body elongated in the direction of travel; a plurality of actuators, the actuators operable for directing control surfaces in the airflow on opposed sides of the flight body for effecting airflow above and below the control surfaces; wings defined by elongated planar surfaces extending from opposed sides of the flight body, the control surfaces attached to the wings, the wings extending in opposed directions from the sides of the central body, the wings tapering to a narrow width and angled back from the direction of travel, the actuator directed control surfaces coupled on a rearward side of the wing and extending along a length of each wing; and navigation logic in a navigation computer determining a distance and a heading to a predetermined landing site, the navigation computer for computing the predetermined landing site by: identifying, in a memory, the available landing sites; computing, from the available landing sites, attainable landing sites based on an altitude, distance, and altitude layers having high winds; computing the predetermined landing site based on which of the attainable landing sites is unlikely to be affected by the high wind layers; the actuators responsive to the navigation logic for directing the flight body via the actuators to the predetermined landing site based on airflow resulting from a gliding movement of the flight body for attaining the predetermined landing site in an absence of active propulsion. 2. The device of claim 1 wherein the actuators further comprise a first actuator for controlling a right control surface and a second actuator for controlling a left control surface, the right control surface and left control surface operative to steer the flight body to the predetermined landing site. 3. The device of claim 1 further comprising a flight computer in communication with the navigation computer for receiving a heading and a distance, and directing the actuators to attain the predetermined landing site based on: receiving position information from a GPS (Global Positioning System); receiving speed information from a pitot tube; and receiving angular information from an IMU (Inertial Measurement Unit). 4. The device of claim 1 further comprising a battery connected to the actuators for powering the actuators, the battery having an electrical capacity for powering the actuators to the predetermined landing site and a weight for permitting propulsionless gliding operation of the flight body.