A method for vehicle control includes receiving data associated with one or more wearable computing devices. Each of the one or more wearable computing devices are associated with one or more vehicle occupants in the vehicle. The method includes determining a health state of each of the one or more vehicle occupants based on the data and determining a location relative to the vehicle of each of the one or more vehicle occupants based on the data. The method includes controlling one or more vehicle systems based on the health state of each of the one or more vehicle occupants and the location relative to the vehicle of each of the one or more vehicle occupants.

A mirror reflective element sub-assembly for use in an exterior rearview mirror assembly of a vehicle includes a mirror reflective element, a mirror reflector and a mirror back plate disposed at the rear side of the mirror reflective element. A heater pad is disposed between the mirror reflective element and the mirror back plate and has a light transmitting portion that is aligned with an aperture of the mirror back plate. A blind spot indicator module includes a body portion and a connector portion extending laterally from the body portion. Light emitted by at least one light emitting diode passes through the light transmitting portion of the heater pad and through a light-transmitting portion of the mirror reflector and exits the mirror reflective element to provide a visual icon visible to a driver of the vehicle who is driving the vehicle and who is viewing said mirror reflective element.

A vehicular driving assist system includes a forward-viewing camera and a side object detection system disposed at a vehicle equipped with the vehicular driving assist system. The side object detection system includes a driver side-sensing radar sensor and a passenger side-sensing radar sensor. Image data captured by the forward-viewing camera is processed to detect traffic lane markers for a lane departure warning system of the equipped vehicle. Responsive at least in part to one of the radar sensors detecting a vehicle travelling in the same direction as the equipped vehicle and approaching from rearward of the equipped vehicle in a traffic lane that is to the respective side of the traffic lane that the equipped vehicle is travelling in, the vehicular driving assist system alerts a driver of the equipped vehicle of presence of the detected vehicle regardless of turn signal usage by the driver of the equipped vehicle.

Presented are intelligent vehicle systems for thermal event mitigation for enclosed vehicles, methods for making/using such systems, and vehicles equipped with such intelligent control systems. A method of operating a host vehicle includes a resident or remote vehicle controller verifying the host vehicle is stationary; if stationary, the controller detects a predicted onset or occurrence of a thermal event in at least one cell in the vehicle's battery system. Responsive to the detected thermal event, the controller calculates a vehicle parked in enclosed space (VPES) confidence value predictive of the host vehicle being at least partially enclosed, and determines if this VPES confidence value is greater than a preset minimum confidence level. Responsive to the detected thermal event and the VPES confidence value exceeding the minimum confidence level, the controller transmits a command signal to a resident vehicle subsystem to execute a vehicle control operation that mitigates the thermal event.

Presented are intelligent vehicle systems for thermal event mitigation for enclosed vehicles, methods for making/using such systems, and vehicles equipped with such intelligent control systems. A method of operating a host vehicle includes a resident or remote vehicle controller verifying the host vehicle is stationary; if stationary, the controller detects a predicted onset or occurrence of a thermal event in at least one cell in the vehicle's battery system. Responsive to the detected thermal event, the controller calculates a vehicle parked in enclosed space (VPES) confidence value predictive of the host vehicle being at least partially enclosed, and determines if this VPES confidence value is greater than a preset minimum confidence level. Responsive to the detected thermal event and the VPES confidence value exceeding the minimum confidence level, the controller transmits a command signal to a resident vehicle subsystem to execute a vehicle control operation that mitigates the thermal event.

One or more indicators provide an indication of the energy source of power for one or more vehicles. The indicators may be positioned on a vehicle and/or on other structures such as parking garages, tunnels, and entrance gates. The indicators may be visual and/or acoustic. On a vehicle the indicators are positioned to most likely be intact during and after an accident and provide a predetermined indication that identifies an energy source that provides power for the vehicle.

One or more indicators provide an indication of the energy source of power for one or more vehicles. The indicators may be positioned on a vehicle and/or on other structures such as parking garages, tunnels, and entrance gates. The indicators may be visual and/or acoustic. On a vehicle the indicators are positioned to most likely be intact during and after an accident and provide a predetermined indication that identifies an energy source that provides power for the vehicle.

Disclosed are a vehicle and a control method for the same. The vehicle includes a display unit configured to display information, a sensing unit configured to detect a moving object in the vicinity of the vehicle, and a controller configured to judge the motion characteristics of the moving object based on sensing information regarding the moving object provided from the sensing unit, the motion characteristics of the moving object including a speed and a movement direction of the moving object, to set a dangerous area for the moving object based on the motion characteristics of the moving object, the dangerous area having a size and a shape corresponding to the motion characteristics of the moving object, and to display an image indicating the dangerous area on the display unit.

A lighting apparatus for a vehicle may include a light output unit; an interface unit; and at least one processor. The at least one processor may be configured to control the light output unit to generate light that illuminates an exterior of the vehicle. The at least one processor may also be configured to receive first information via the interface unit; and control the light output unit to display, via the light that illuminates the exterior of the vehicle, a visual image corresponding to the received first information. The at least one processor may further be configured to receive second information via the interface unit; and control the light output unit based on the received second information to change the visual image displayed by the light that illuminates the exterior of the vehicle.

A system and method for a vehicular alert that detects a person or animal, determines an environmental noise level from a microphone, determines an alert characteristic response to detection of the person or animal, and emits the alert signal based on the determined alert characteristic, which is adjusted based on the environmental noise level. The alert signal draws the attention of the person or animal to the vehicle to reduce the likelihood of an accident.