Abstract: A system includes a processor and a memory. The memory stores instructions executable by the processor to determine a vehicle launch path based on a specified speed and vehicle physical attributes, and upon detecting an object in the launch path, to deactivate the vehicle launch.

Abstract: A system includes a processor configured to determine that measured vehicle variable values match a predefined set of vehicle variable values associated with recommending vehicle feature engagement. The processor is further configured to determine that the feature has not been used with a threshold frequency in a vehicle in which the variable values were measured. Also, the processor is configured to responsive to the match and use below the threshold, present a recommendation to engage the feature.

Abstract: Method and apparatus are disclosed for audio alerts for remote park-assist tethering. An example vehicle includes an exterior surface, a speaker, a communication node for wireless communication with a mobile device, an autonomy unit for remote parking, and a controller. The controller is to receive, via the communication node, an instruction from the mobile device to perform the remote parking and emit an alert, via the speaker, responsive to determining the mobile device is beyond a threshold range from the exterior surface while sending the instruction.

Abstract: A hitch assist system is provided herein. The hitch assist system includes a mobile device remotely disposed from a vehicle and configured to receive a user input for adjusting an alignment position of a hitch assembly of a vehicle. A controller is configured to generate commands for maneuvering the vehicle such that the hitch assembly is moved to an adjusted position at which the hitch assembly is aligned with a coupler of a trailer.

Abstract: Methods and apparatus are disclosed to facilitate remote-controlled maneuvers. An example vehicle comprises: wheels, a transceiver, and a processor and memory. The processor is in communication with a remote device via the transceiver and is configured to: determine whether first and second buttons of the remote device are pressed based on signals from the remote device, if the first and second buttons are released, stop rotation of the wheels, and communicate a message regarding the released first and second buttons to the remote device.

Abstract: Method and apparatus are disclosed for interfaces for remote trailer maneuver-assist. An example trailer maneuver-assist system includes a mobile device including a touchscreen to present an interface. The interface includes an icon for receiving a direction-of-travel and a track for receiving a continuous motion input. The example trailer maneuver-assist system also includes a vehicle. The vehicle includes a communication module for wireless communication with the mobile device and a local control unit that performs motive functions in the direction-of-travel while the mobile device receives the continuous motion input via the touchscreen.

Abstract: Method and apparatus are disclosed for mobile device tethering for a remote parking assist system of a vehicle. An example vehicle includes an active safety module and a body control module. The active safety module to, when active, autonomously parks the vehicle. The body control module determines an initial location of the mobile device and determines a current location of the mobile device using a current position received from the mobile device. The current position received from the mobile device is defined relative to the initial location. Additionally, the body control module, when the mobile device is within a virtual boundary, enables an autonomous parking system of the active safety module.

Abstract: Methods and apparatus are disclosed to facilitate pedestrian detection during remote-controlled maneuvers. An example vehicle comprises external indicators and a processor and memory. The processor and memory are in communication with the external indicators and a remote device. The processor is configured to: determine whether the remote device is in a travel zone related to the vehicle; determine a risk assessment if the remote device is in the travel zone; and communicate a warning based on the risk assessment via the external indicators.

Abstract: Example parking management systems and methods are described. In one implementation, a method receives an image that includes a parking area for the unmarked parking of vehicles. The method defines a plurality of unmarked parking spaces in the parking area and assigns a first vehicle to a first unmarked parking space in the parking area.

Abstract: Systems, methods, and devices for determining an object identification hit for an object within a user's approximate field of vision during a vehicle trip are provided. A method of the disclosure includes determining eye tracking data associated with a user of a vehicle from a vehicle sensor and determining a field of vision of the user based on the eye tracking data. The method includes determining object data associated with an object within the field of vision and identifying the object within the field of vision based on the object data to produce an object identification hit. The method includes storing the object identification hit in memory.

Abstract: Example parking management systems and methods are described. In one implementation, a method receives an image that includes a parking area for the unmarked parking of vehicles. The method defines a plurality of unmarked parking spaces in the parking area and assigns a first vehicle to a first unmarked parking space in the parking area.

Abstract: A system includes a processor and a memory. The memory stores instructions executable by the processor to determine a vehicle launch path based on a specified speed and vehicle physical attributes, and upon detecting an object in the launch path, to deactivate the vehicle launch.

Abstract: A system includes a processor configured to detect a vehicle wireless signal at a first frequency-band. The processor is also configured to choose a second signal at a second frequency-band having a predefined relationship to a requested action. The processor is further configured to connect to the second signal and lower a signal data-transfer rate, responsive to the detection, and use the second signal to perform a time-of-flight based user-proximity detection, to determine if a user is within a vehicle proximity range associated with the requested action.

Abstract: A system includes a processor configured to determine that measured vehicle variable values match a predefined set of vehicle variable values associated with recommending vehicle feature engagement. The processor is further configured to determine that the feature has not been used with a threshold frequency in a vehicle in which the variable values were measured. Also, the processor is configured to responsive to the match and use below the threshold, present a recommendation to engage the feature.

Abstract: A system includes a processor configured to detect a vehicle wireless signal at a first frequency-band. The processor is also configured to choose a second signal at a second frequency-band having a predefined relationship to a requested action. The processor is further configured to connect to the second signal and lower a signal data-transfer rate, responsive to the detection, and use the second signal to perform a time-of-flight based user-proximity detection, to determine if a user is within a vehicle proximity range associated with the requested action.

Abstract: A system for a vehicle comprises a camera configured to capture an image of a forward path of the vehicle; a screen configured to display the image; and a processor, configured to, responsive to an input to the screen identify two edges of at least one object of the image, measure a first distance between the two edges and output the first distance.

Abstract: Methods and apparatus are disclosed to facilitate pedestrian detection during remote-controlled maneuvers. An example vehicle comprises external indicators and a processor and memory. The processor and memory are in communication with the external indicators and a remote device. The processor is configured to: determine whether the remote device is in a travel zone related to the vehicle; determine a risk assessment if the remote device is in the travel zone; and communicate a warning based on the risk assessment via the external indicators.

Abstract: Method and apparatus are disclosed for preventing damage to an object within a charging field of a wireless vehicle battery charger. An example vehicle includes a wireless vehicle battery charger having a charging field, a plurality of Bluetooth antennas, and a processor. The processor is configured to identify a location of an object using one or more of the plurality of Bluetooth antennas, and, responsive to determining that the object is within the charging field, disable the wireless vehicle battery charger.

Abstract: A vehicle lamp assembly is provided herein. The vehicle lamp assembly includes a lighting device configured to couple to a headliner. One or more light sources are disposed within the lighting device. A controller is configured to selectively activate the one or more light sources. The illuminated one or more light sources direct light at a feature within a vehicle.

Abstract: Method and apparatus are disclosed for mobile device tethering for vehicle systems based on variable time-of-flight and dead reckoning. An example vehicle includes a communication module to communicate with a mobile device using multiple frequency bands and a body control module. The body control module, at an interval, estimates a location of the mobile device relative to the vehicle using time-of-flight measurements with a first or second frequency band when the location is in a first or second zone respectively. Additionally, between the intervals, the body control module tracks the location using dead reckoning. The body control modules then controls a vehicle subsystem using the location of the mobile device.