An assembly of a dash for a vehicle includes a first plate and a second plate movable along an axis away from the first plate. The second plate moves from an undeployed position to a deployed position. The assembly includes a spring between the first plate and the second plate that biases the second plate toward the deployed position. The assembly includes a post extending along the axis from the second plate through the first plate. The assembly includes a pin releasably engaging the post with the first plate in the undeployed position. The assembly includes a release supported by the first plate and connected to the pin. The pin is disengageable from the post transverse to the axis by the release.

A method for low visibility driving includes receiving image data from a visible-light camera. The image data includes an image of an area in front of a vehicle. The method includes receiving sensor data from an object-detecting sensor. The object-detecting sensor is configured to detect an object in front of the vehicle. The sensor data includes information about the object in front of the vehicle. The method further includes detecting the object in front of the vehicle using the sensor data received from the object-detecting sensor and determining whether the visible-light camera is unable to detect the object in front of the vehicle that was detected by the object-detecting sensor. The method further includes commanding a display to generate a virtual image using the sensor data to identify the object in front of the vehicle.

A method for low visibility driving includes receiving image data from a visible-light camera. The image data includes an image of an area in front of a vehicle. The method includes receiving sensor data from an object-detecting sensor. The object-detecting sensor is configured to detect an object in front of the vehicle. The sensor data includes information about the object in front of the vehicle. The method further includes detecting the object in front of the vehicle using the sensor data received from the object-detecting sensor and determining whether the visible-light camera is unable to detect the object in front of the vehicle that was detected by the object-detecting sensor. The method further includes commanding a display to generate a virtual image using the sensor data to identify the object in front of the vehicle.

A vehicle assembly includes a panel or mounting location, a speaker or microphone disposed within the panel for generating or detecting sounds and a cover disposed over the speaker. The cover includes a plurality of openings for the transmission of sound and a corresponding plurality of blockers at each of the plurality of openings. Each of the plurality of blockers includes a front face that is spaced apart forward of a corresponding one of the plurality of openings for blocking water intrusion.

A steering wheel-based HMI system for a vehicle includes a steer-by-wire system and a control module. The steer-by-wire system includes a steering wheel and a torque feedback unit mechanically connected to the steering wheel. The control module is communicatively connected to the torque feedback unit. The control module is configured to identify a communication, gather information about user securement of the steering wheel, and operate the torque feedback unit to apply a supplementary torque to the steering wheel for haptically issuing the communication through the steering wheel. The supplementary torque has a magnitude that is scaled based on the information about user securement of the steering wheel.

A steering wheel-based HMI system for a vehicle includes a steer-by-wire system and a control module. The steer-by-wire system includes a steering wheel and a torque feedback unit mechanically connected to the steering wheel. The control module is communicatively connected to the torque feedback unit. The control module is configured to identify a communication, gather information about user securement of the steering wheel, and operate the torque feedback unit to apply a supplementary torque to the steering wheel for haptically issuing the communication through the steering wheel. The supplementary torque has a magnitude that is scaled based on the information about user securement of the steering wheel.

Method for fixing a glass interior trim element into a motor vehicle. The invention relates to method for fixing a glass trim element into a motor vehicle's interior characterized in that the method comprises a step of fixation of the glass element to a support to provide an assembly that is integrated to motor vehicle's interior body.

Method for fixing a glass interior trim element into a motor vehicle. The invention relates to method for fixing a glass trim element into a motor vehicle's interior characterized in that the method comprises a step of fixation of the glass element to a support to provide an assembly that is integrated to motor vehicle's interior body.

In accordance with an aspect of the disclosure, a vehicle includes an air conditioning device. An input device is provided to receive a selection input of a user with respect to a blowing position of the air conditioning device and including a first input area, a second input area and a third input area for outputting an activation mark or a deactivation mark by the selection input, A controller is configured to control output of an activation mark or a deactivation mark of the first input area, the second input area and the third input area.

In accordance with an aspect of the disclosure, a vehicle includes an air conditioning device. An input device is provided to receive a selection input of a user with respect to a blowing position of the air conditioning device and including a first input area, a second input area and a third input area for outputting an activation mark or a deactivation mark by the selection input, A controller is configured to control output of an activation mark or a deactivation mark of the first input area, the second input area and the third input area.