Aeronautics and astronautics – Aircraft control – Automatic
Reexamination Certificate
2001-10-11
2004-08-03
Carone, Michael J. (Department: 3643)
Aeronautics and astronautics
Aircraft control
Automatic
C244S118500
Reexamination Certificate
active
06769645
ABSTRACT:
BACKGROUND OF INVENTION
Hijackers have been seizing commercial aircraft since about 1931. Although somewhat analogous to the problems of piracy of ships at sea, the uniqueness of hijacking passenger planes has stimulated much concern. One of the best summaries of seventy years of deterring hijacking of passenger planes is on the Internet at <http://www.gwu.edu/_cms/aviation/track_in/merari.html> setting forth a lecture by Professor Merari at a hijacking conference held Dec. 15, 1997. The hazards of excessively complicated software and computer systems, and the greater reliability of a plurality of independent more simplified computer systems was clarified by consultant Neumann at the same conference at hattp://gwu.edu/cms/aviation/track_ii
eumann.html. The world's attention was drawn to the inadequacies of thwarting hijackers on Sep. 11, 2001 when the Pentagon and World Trade Center were hit by hijacked planes.
Haxton et al 6,102,332 thwarts hijackers by providing a plane with a plurality of passenger compartments which are loaded at the airport, and thereafter attached to the mainframe of the plane. In the event that a hijacker gains control of tile cockpit, each compartment can be released from the plane so that it can utilize a large parachute for permitting the passengers to achieve a safe landing.
During WWII, the Germans employed “drones” or military planes which were pilotless, and hence suitable for crashing into targets Improved technology concerning transmission of television pictures permits improved drones, as clarified in Eiband et al 5,240,207. Remote control of pilotless planes desirably feature feedback concerning the most recent modifications of the course of the plane, as taught in Berejik et al 4,964,598
Although the automatic pilot systems generally dominate most of the flight of a passenger pane, the pilot can generally instantly dominate such automatic pilot, thus giving a pilot an opportunity to modify the course of the plane to avoid a collision or the like. Such flexibility is generally desirable. Hence, the thwarting of hijackers has generally been based on preventing the hijacker from gaining access to the plane controls, as distinguished from thwarting steps subsequent to the time when a hijacker is in charge of the cockpit.
BRIEF SUMMARY OF INVENTION
In accordance with the present invention, the hijacker in the cockpit is thwarted from achieving some of his intended aspirations by reason of the dominance of robotic controls which are activated in response to a system of discriminating precautions. Such robotic controls seek to thwart the hijacker so that at least some of the aspirations of the hijacker are not attainable. Information about the system for thwarting hijackers is intended to deter attempts at hijacking. It is the concept of a system for thwarting the hijacker after he controls the cockpit which is emphasized, recognizing that there might be a plausible range of alternatives within the general system for such concept. Because the invention concerns thwarting the hijacker after he controls the cockpit, automatic sending of emergency signals alerting ground crews to such takeover are significant benefits from the invention. Ground crews, such as the airport towers can maintain some surveillance of an aircraft for being assured that it is on its intended course, and can communicate with pilots when illness or engine trouble prompts a change of course. Improved surveillance of planes for detecting change of course without adequate explanation permits some systems for thwarting a hijacker in the cockpit. Military planes are capable of shooting down an aircraft having a sufficiently dangerous course, but only if ground crews have been alerted to the emergency.
DETAILED DESCRIPTION OF INVENTION
A potential target such as the U.S. Capitol Building, or a nuclear plant, is provided with a plurality of Repulsion Transmitters emitting a confidential encrypted signal for a plausible distance such as 2 kilometer. Each commercial plane is provided with Repulsion receivers adapted to detect the electronic signals from such Repulsion Transmitters whenever such plane comes within the range of the Repulsive Transmitters. A Discriminating Analyzer monitors such signals, and particularly the rate at which there is increase in the intensity of the signal. from the Repulsion Transmitters. If the rate of increase is so rapid, as to indicate that the course of the plane is radially toward the Repulsion Transmitters, then the Electronic Automatic Repulsion Response System within the plane is actuated. If the course of the plane is merely tangentially through the zone of influence of the Repulsion Transmitters, the Discriminating Analyzer recognizes such tangential course of the plane without actuating the Electronic Automatic Repulsion System within the plane. If the discriminating Analyzer diagnoses the course of the plane as a spiral by reason of the relatively slow but persistent acceleration of the intensity of the signal, then the Electronic Automatic Repulsion System is actuated.
The term “ground crew” refers to all varieties of aircraft surveillance benefiting from any alert about the presence of a hijacker in the cockpit. Desirably each pilot is provided with a “deadpan switch” which the pilot intentionally maintains in a closed position upon entering the cockpit, and which the pilot can either intentionally modify, or which is automatically modified upon the death of the pilot. When such deadpan-pilotswitch is activated, a radio signal is sent to the ground crew that an emergency exists in the cockpit of such plane. Such signal would be coded so that the exact identity,location and direction of the plane would be instantly recognized. Because of the rarity of use of system, it would require no manual surveillance, but could merely sound an alarm and provide a video readout of which plane was sending such emergency signal, like an automatic SOS.
Similarly, whenever the Electronic Automatic Repulsion System was activated, the ground crew would automatically receive a SUPER-SOS message identifying the explicit plane. Because of the great rarity of such signals, no manual surveillance for such signals would be needed, because the alarm and the explicit identification of the plane would provide the relevant information.
Previous systems for thwarting hijackers have focused on preventing the hijacker from entering the cockpit, as distinguished from the present system of coping with the situation of the hijacker in the cockpit. The alarm systems to ground crew, as previously outlined, are innovations which would permit ground crew to take prompt action of an appropriate nature, such as sending military planes after the hijacked pane.
Emergency Robotic Controls would receive instructions from either ground crew or a computer having a memory of instructions for a plurality of diversionary tactics. A Discriminating Analyzer would monitor the course of the plane and the speed with which the plane was moving toward the target having the Repulsion Transmitters. Normally a turn to the right would be an appropriate tactic, but sometimes circumstances might favor a turn to the left or changing the course upwardly. Such Automatic modification of the course of the aircraft would effectively protect the structure having the repulsion transmitters, thus possibly preventing a nuclear accident worse than Chernobyl.
In another modification of the invention, two way communication would be established between the aircraft and the ground crew, so that the ground crew could dominate the remote control of the robotic controls instead of the on-board package of instructions. Because such remote control of the plane would be possible only after the ground crew had been alerted that a hijacker was in the cockpit.
Sometimes the crash of an airplane into a mountain is inexplicable, with some theories that suicidal hijackers have been at the controls. In another modification of the invention, the plane is provided with a radar system constantly monitoring the distance from
Truong Hugh Mac
Truong Mac
Carone Michael J.
Collins Timothy D.
Ewbank John R.
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