Abstract: A vehicle lamp control system includes an electronic control unit having a processor and a non-transitory computer readable memory including a machine-readable instruction set. The electronic control unit is communicatively coupled to a camera configured to output image data of a vehicle environment, a vehicle lamp and a steering wheel sensor. The machine-readable instruction set causes the processor to receive the image data of the vehicle environment from the camera, determine whether an external light source is present in the vehicle environment based on the image data of the vehicle environment, determine a steering wheel angle based on an output signal of the steering wheel sensor, and generate a control signal for activating the vehicle lamp when the steering wheel angle exceeds an activation steering threshold and no external light source is detected in the vehicle environment.

Abstract: A vehicle lamp control system includes an electronic control unit having a processor and a non-transitory computer readable memory including a machine-readable instruction set. The electronic control unit is communicatively coupled to a camera configured to output image data of a vehicle environment, a vehicle lamp and a steering wheel sensor. The machine-readable instruction set causes the processor to receive the image data of the vehicle environment from the camera, determine whether an external light source is present in the vehicle environment based on the image data of the vehicle environment, determine a steering wheel angle based on an output signal of the steering wheel sensor, and generate a control signal for activating the vehicle lamp when the steering wheel angle exceeds an activation steering threshold and no external light source is detected in the vehicle environment.

Abstract: Systems and vehicles for calculating trailer brake control parameters are disclosed. A system for calculating a trailer brake control parameter includes one or more processors, one or more memory modules communicatively coupled to the one or more processors, and machine readable instructions stored in the one or more memory modules. The one or more memory modules include the trailer brake control parameter. The machine readable instructions, when executed by the one or more processors, cause the system to receive an image including a trailer, determine a trailer characteristic from the image using image analysis logic stored in the one or more memory modules, and calculate the trailer brake control parameter based on the trailer characteristic.

Abstract: A vehicle and anti-lock braking processes for the vehicle as automatically implemented by a computing device are disclosed. The vehicle can include a perception system and a computing device in communication with the perception system. The computing device can be configured to detect, using the perception system, an environmental condition external to the vehicle and select a wheel slip threshold based on the environmental condition. The environmental condition can be a weather-based condition or an obstacle-based condition. If the selected wheel slip threshold is reached while the vehicle is braking, the computing device can send a command to activate anti-lock braking for the vehicle.

Abstract: A vehicle and anti-lock braking processes for the vehicle as automatically implemented by a computing device are disclosed. The vehicle can include a perception system and a computing device in communication with the perception system. The computing device can be configured to detect, using the perception system, an environmental condition external to the vehicle and select a wheel slip threshold based on the environmental condition. The environmental condition can be a weather-based condition or an obstacle-based condition. If the selected wheel slip threshold is reached while the vehicle is braking, the computing device can send a command to activate anti-lock braking for the vehicle.

Abstract: Systems and vehicles for calculating trailer brake control parameters are disclosed. A system for calculating a trailer brake control parameter includes one or more processors, one or more memory modules communicatively coupled to the one or more processors, and machine readable instructions stored in the one or more memory modules. The one or more memory modules include the trailer brake control parameter. The machine readable instructions, when executed by the one or more processors, cause the system to receive an image including a trailer, determine a trailer characteristic from the image using image analysis logic stored in the one or more memory modules, and calculate the trailer brake control parameter based on the trailer characteristic.