Abstract: A vehicle includes a liftgate system for mitigating a liftgate from contacting an object within a closing path of the liftgate. The liftgate system includes the liftgate, a camera, and a processor. The liftgate includes a surface facing an interior of the vehicle when the liftgate is closed. The camera is disposed on the surface. The processor detects, via the camera, an object within a closing path of the liftgate. The processors estimate a trajectory of the object when the object is in motion. The processor controls the liftgate based on the estimated trajectory and a speed setting at which the liftgate closes.

Abstract: Method and apparatus are disclosed for garage door detection for a vehicle. An example vehicle includes a rearview camera, memory, and a processor. The rearview camera monitors a garage door. The memory stores a first height associated with a field of view of the rearview camera and a second height. The a processor, when a bottom edge of the garage door exceeds the first height, calculates a time until the bottom edge will reach the second height. Additionally, until the calculated time, the processor prevents movement of the vehicle.

Abstract: Method and apparatus are disclosed for garage door detection for a vehicle. An example vehicle includes a rearview camera, memory, and a processor. The rearview camera monitors a garage door. The memory stores a first height associated with a field of view of the rearview camera and a second height. The a processor, when a bottom edge of the garage door exceeds the first height, calculates a time until the bottom edge will reach the second height. Additionally, until the calculated time, the processor prevents movement of the vehicle.

Abstract: Methods and apparatus for vehicle-based drone charging are disclosed herein. A vehicle-based drone charging apparatus includes a charging device to be operatively coupled to a vehicle. The charging device is to charge a drone in response to the drone being operatively coupled to the charging device. The vehicle-based drone charging apparatus further includes a communication interface to be operatively coupled to the vehicle. The communication interface is to broadcast use information associated with the charging device. The use information includes location information associated with a location of the vehicle and fee information associated with a cost for use of the charging device.

Abstract: Methods and apparatus are disclosed for contamination prevention of vehicle cameras and sensors. An example vehicle includes an exterior, a camera along the exterior and including a lens, and a controller. The controller is to determine, based upon images captured by the camera, whether a contaminant is approaching the lens and identify a contaminant state upon determining the contaminant is approaching the lens. The example vehicle also includes a nozzle to spray washer fluid to prevent contamination of the lens responsive to the controller identifying that the contaminant is a liquid.

Abstract: Method and apparatus are disclosed for providing discrete alerts to a user of the lock status of a vehicle. An example vehicle includes sensors, a communication system, and a processor. The processor is processor configured to receive a lock request from a remote device, responsive to determining that the remote device is within a threshold range, transmit a first alert to the remote device, and responsive to determining that the remote device is outside the threshold range (i) determine that a vehicle situational criteria is met, and (ii) transmit a second alert to the remote device.

Abstract: A vehicle includes: motor(s), local sensors, processor(s) configured to: receive an instruction including first properties of a target vehicle; verify the instruction; instruct the local sensors to scan at a first resolution; mark a scanned external vehicle, having second properties, as compatible or incompatible based on a comparison of the first and second properties; instruct the local sensors to scan at a second resolution upon marking the external vehicle as compatible.

Abstract: A distributed system detects and tracks wildfires using a fleet of automobiles as remote sensing systems. An individual vehicles includes a plurality of sensing subsystems each collecting and evaluating a respective environmental parameter for various autonomous functions such as collision avoidance, lane-keeping, and climate control. Each sensing subsystem analyzes a respective environmental parameter to detect a respective fire-related trigger. A fire response module in the vehicle responds to a respective fire-related trigger from one of the sensing subsystems by fusing data from a plurality of the sensing subsystems. The fire response module uses the fused data to detect whether there is a fire-related event. A wireless communication module communicates with a remote fire response center, and transmits the fused data to the fire response center when a fire-related event is detected. The response center sends notices and detour information for a confirmed fire incident to the wireless communication module.

Abstract: Method and apparatus are disclosed for accelerometer-based windshield wiper monitoring. A vehicle includes an accelerometer affixed to a vehicle window, a windshield wiper to actuate across the vehicle window, and a processor. The processor is configured to determine an acoustic profile corresponding to the windshield wiper based on structure-borne audio data received from the accelerometer, determine whether a bandlimited decibel level of the acoustic profile exceeds a threshold, and responsively provide an alert via a vehicle display.

Abstract: Methods and apparatus are disclosed for contamination prevention of vehicle cameras and sensors. An example vehicle includes an exterior, a camera along the exterior and including a lens, and a controller. The controller is to determine, based upon images captured by the camera, whether a contaminant is approaching the lens and identify a contaminant state upon determining the contaminant is approaching the lens. The example vehicle also includes a nozzle to spray washer fluid to prevent contamination of the lens responsive to the controller identifying that the contaminant is a liquid.

Abstract: Method and apparatus are disclosed for accelerometer-based external sound monitoring for backup assistance in a vehicle. An example vehicle includes an accelerometer mounted on an internal surface of a rear window of the vehicle, a rear view camera, and a processor. The processor identifies a source of a sound that causes vibrations on the rear window that are captured by the accelerometer. The processor also categorizes the sound and provides an alert based on a category of the sound.

Abstract: Method and apparatus are disclosed for classifying non-contact event around a vehicle based on a restraint control module accelerometer. An example vehicle includes impact sensors, a metal panel on an underside of the vehicle, an accelerometer mounted to the metal panel to measure vibrations of the metal panel caused by sound, a restraint control module. The restraint control module (a) classifies the sound as a collision event or a non-collision event, and (b) deploys an airbag when the sound is classified as the collision event and the impact sensors indicate the collision event.

Abstract: A boundary detection system for a vehicle includes a controller programmed to generate an alert in response to sensing a presence of a person in a first zone extending from the vehicle. The system also includes a wireless receiver configured to receive signals transmitted by a nomadic device in a second zone surrounding the vehicle. The controller is further programmed to, in response to the receiver receiving the signals, output the alert.

Abstract: A system includes a base having a first window and a second window spaced from the first window. The system includes an optical sensor supported by the base. The system includes a mirror supported by the base and movable between a first position and a second position. In the first position the mirror directs light from the first window to the sensor. In the second position the mirror directs light from the second window to the sensor.

Abstract: A system includes an optical sensor defining a field of view. The system includes a first transparent shield within the field of view. The system includes a second transparent shield movable between a first position and a second position, the first position being within the field of view and spaced from the first shield to define a gap therebetween, the second position being outside the field of view. The system includes a nozzle positioned to direct fluid into the gap.

Abstract: A system includes a base defining an opening. The system includes a pair of gaskets supported by the base, the opening disposed between the gaskets. The system includes a pair of pads supported by the base, the gaskets disposed between the pads. The system includes a transparent shield supported by the base and movable between a first position and a second position, the shield abutting one of the pads in the first position and the other of the pads in the second position.

Abstract: A computer is programmed to receive, in a vehicle, an instruction, via an ultra-short-range transceiver that is mounted underneath a vehicle exterior surface, and actuate a vehicle component based on the received instruction.

Abstract: Method and apparatus are disclosed for accelerometer-based windshield wiper monitoring. A vehicle includes an accelerometer affixed to a vehicle window, a windshield wiper to actuate across the vehicle window, and a processor. The processor is configured to determine an acoustic profile corresponding to the windshield wiper based on structure-borne audio data received from the accelerometer, determine whether a bandlimited decibel level of the acoustic profile exceeds a threshold, and responsively provide an alert via a vehicle display.

Abstract: Method and apparatus are disclosed for monitoring windshield vibrations for vehicle collision detection. An example vehicle includes a windshield, a vibration sensor coupled to the windshield to detect window vibrations of the windshield, a first accelerometer to detect vehicle body vibrations of a vehicle body, and a restraint control module. The restraint control module is to detect an event based upon the window vibrations and determine whether the event is a collision event or a non-collision event responsive to comparing the window vibrations and the vehicle body vibrations.

Abstract: Methods and apparatus are disclosed for contamination prevention of vehicle cameras and sensors. An example vehicle includes an exterior, a camera along the exterior and including a lens, and a controller. The controller is to determine, based upon images captured by the camera, whether a contaminant is approaching the lens and identify a contaminant state upon determining the contaminant is approaching the lens. The example vehicle also includes a nozzle to spray washer fluid to prevent contamination of the lens responsive to the controller identifying that the contaminant is a liquid.