A service providing apparatus of providing a service according to a state of a passenger in aircraft during autonomous flight includes a processor; and a storage medium recording one or more programs configured to be executable by the processor, wherein the one or more programs include instructions for an input/output (I/O) module receiving biometric data and a captured image of a passenger in real time, a determination module determining a state of the passenger based on the biometric data and the captured image of a passenger, and a control module performing a preset process according to the state of the passenger, wherein the preset process includes: a first process for adjusting a flight path of the aircraft when the state of the passenger is an emergency state or a second process for relieving tension when the state of the passenger is a state of tension

Pilot health monitoring systems, methods, and apparatuses are provided. A pilot health monitoring system is configured to collect information regarding the pilot's physiological and/or physical characteristics, and information regarding a state of the aircraft; analyze the information; determine a health condition of the pilot and/or a state of the aircraft; and/or provide warnings and/or commands as a function of the information.

According to one aspect of the present disclosure, a device and technique for unmanned aerial vehicle (UAV) impact monitoring includes a UAV having a propulsion system configured to fly the UAV to a destination; a retention mechanism for retaining and releasing a package carried by the UAV; and an indicator reader module configured to determine a status of an impact indicator attached to the package.

A method for policing and managing the operation of a flying, unmanned aircraft in the event of usurpation of control of, malfunction of, or ill-intentioned use of, this aircraft includes the steps of (a) detecting inappropriate operation of the aircraft; (b) transmitting a takeover command to the aircraft to interrupt control of the operation of this aircraft by a first pilot and relinquish control of the aircraft to a second pilot; and (c) transmitting control commands to the aircraft to control its operation by the second pilot, until the need for alternate pilot control of the aircraft has ended or until the aircraft has landed safely.

A method for policing and managing the operation of a flying, unmanned aircraft in the event of usurpation of control of, malfunction of, or ill-intentioned use of, this aircraft includes the steps of (a) detecting inappropriate operation of the aircraft; (b) transmitting a takeover command to the aircraft to interrupt control of the operation of this aircraft by a first pilot and relinquish control of the aircraft to a second pilot; and (c) transmitting control commands to the aircraft to control its operation by the second pilot, until the need for alternate pilot control of the aircraft has ended or until the aircraft has landed safely.

The airplane anti-hijacking system is an access control, alarm, and lockout system that is installed on commercial aircraft for the purpose of preventing unauthorized persons from taking control of the aircraft. The airplane anti-hijacking system is a biometric system that authenticates the identity of the flight crew and automatically monitors the flight operation for anomalies. Should an anomaly occur in-flight, an emergency message is sent via satellite to the appropriate authorities. Upon receipt of an emergency message, airplane anti-hijacking system gives the appropriate authorities the ability to seize control of the aircraft by locking out in-flight control of the operation of the flight controls and operating the aircraft remotely. The airplane anti-hijacking system further comprises a craft control module and a plurality of biometric scanners.

An apparatus comprising a system with an array of sensors, sound and light emitting and receiving devices having at least one object control from a monitored object comprised of an operator, a patient, an animal, or machine, control of at least one performance parameter of the system; at least one iris/retina biometric sensor; at least one physiological iris/pupil sensor; at least one infinite random light emitter; said at least one iris/pupil biometric sensor; said at least one physiological pupil sensor and said one infinite random light emitter operatively connected and synchronized communication with each other utilizing at least one central processing unit; said at least one biometric sensor and said at least one physiological sensor delivering a parallel array of sensory readings to said central processing unit; said central processing unit capable of detecting a normal or an abnormal sensory reading; said at least one central processing unit capable of effecting said at least one performance parameter in response to said sensory reading; and said central processing unit recording said sensory reading on a storage medium to be used for identifying and detection of said alive status and health condition of the monitored object in real time.

A lighting system of an aircraft cabin includes a plurality of light units disposed at a plurality of locations within the aircraft cabin, wherein each of the plurality of light units includes at least one infrared light source, with an emission of infrared light across the aircraft cabin resulting from an operation of the at least one infrared light source of the plurality of light units.

A passenger aircraft includes a plurality of passenger seats arranged in seat rows, and a disembarkation guidance system. The disembarkation guidance system includes a plurality of electronically operable visual indicators, each of the plurality of electronically operable visual indicators being assigned to a respective seat row. The disembarkation guidance system further includes an indicator control device coupled to each of the electronically operable visual indicators. The indicator control device is configured to individually control electronically operable visual indicators to indicate passengers in the assigned seat row whether they are permitted to disembark the passenger aircraft.

A method of controlling an aircraft in the event of pilot incapacity includes detecting, using at least one sensor, the occurrence of an event relating to a pilot's capacity to control the aircraft, determining whether the event justifies a controlled takeover of the aircraft from the pilot, asserting a controlled takeover of the aircraft from the pilot if it has been determined that a controlled takeover is justified, and executing a controlled landing of the aircraft without assistance of the pilot.