An automated operation vehicle control unit is configured to perform a detection process in which an abnormal condition of a passenger of a vehicle is detected and a notification process in which pedestrians are notified of the abnormal condition detected in the detection process in a case where the abnormal condition of the passenger is detected in the detection process.

An escape system for a sinking car and an optoelectronic component thereof are disclosed. The optoelectronic component includes a housing and an optoelectronic module. The escape system for a sinking car includes an optoelectronic component and a motherboard. A lighting unit of the escape system for a sinking car and an optoelectronic component thereof is installed on a car to emit light. After the car fell into water, by the characteristic that when light passes through a medium, the attenuation in light energy can be detected effectively because light is absorbed by that medium (such as liquid), the car sinking signal can be received and transmitted quickly, thereby actually taking the opportunities of rescue to reduce casualties.

A vehicle safety release system effecting an automated release and having, inter alia, a seatbelt, an integrated circuit (control unit), a power source, a transmitter, and a collision detection sensor, is contemplated. The safety release system also contemplates a manual release built to work in tandem with the system's automated release. The safety release system may be operated by both a manual input and the input from one or more collision detection sensors. When a push button is depressed a signal is sent to the control unit to release the seatbelt. Aspects of embodiments of the invention also contemplate access to the seatbelt's base latch to enable removal, if needed.

An escape system for a sinking car and an optoelectronic component thereof are disclosed. The optoelectronic component includes a housing and an optoelectronic module. The escape system for a sinking car includes an optoelectronic component and a motherboard. A lighting unit of the escape system for a sinking car and an optoelectronic component thereof is installed on a car to emit light. After the car fell into water, by the characteristic that when light passes through a medium, the attenuation in light energy can be detected effectively because light is absorbed by that medium (such as liquid), the car sinking signal can be received and transmitted quickly, thereby actually taking the opportunities of rescue to reduce casualties.

Systems, methods, and other embodiments described herein relate to sensing ingress of water in a vehicle. In one embodiment, a method includes acquiring, from a radar of a vehicle, radar data about a passenger cabin of the vehicle. The method includes determining a current state of the passenger cabin according to the radar data. The method includes, responsive to identifying that the current state indicates an ingress of water into the passenger cabin, generating a response to the ingress of the water.

A vehicle includes an engine compartment and two rockers fixed relative to the engine compartment. The two rockers define a passenger cabin. A first water sensor is disposed in the engine compartment, and second and third water sensors are disposed in the passenger cabin at the rockers. A seatbelt buckle is disposed in the passenger cabin and has an actuator. A control module is in communication with the water sensors and the actuator. The control module is programmed to actuate the actuator based on signals from the water sensors.

A vehicle includes an engine compartment and two rockers fixed relative to the engine compartment. The two rockers define a passenger cabin. A first water sensor is disposed in the engine compartment, and second and third water sensors are disposed in the passenger cabin at the rockers. A seatbelt buckle is disposed in the passenger cabin and has an actuator. A control module is in communication with the water sensors and the actuator. The control module is programmed to actuate the actuator based on signals from the water sensors.

Methods and apparatus for verifying cabin and flight deck security are disclosed herein. An example apparatus includes interface circuitry, machine readable instructions, and programmable circuitry to at least one of instantiate or execute the machine readable instructions to receive output from an identifier, the identifier associated with a location of a passenger seat on an aircraft, receive output from a seat belt latch sensor, the seat belt latch sensor associated with a seat belt of the passenger seat, determine a usage status of the seat belt at the location of the passenger seat, and generate a seat diagram, the seat diagram including the usage status of the seat belt at the location of the passenger seat.