A vehicle safety device that prevents the activation of automatic or power switches in a vehicle. The vehicle safety device may have a protrusion that engages or obstructs the switch by filling the void adjacent the switch, the finger groove, thereby preventing access to the finger groove and/or not allowing the switch to be moved into an activation position. The protrusion may have a tab the further prevents the switch from moving from an inactivated state to an activated state. The protrusion is connected to an underside of a hard shell covering the entire switch area/panel, thereby preventing access to a plurality of switches and thus also preventing their inadvertent activation.

A temperature adjusting apparatus is provided in a vehicle capable of performing an automatic driving. The temperature adjusting apparatus includes: an automatic driving determination unit that determines whether or not an automatic driving control is operating in the vehicle; a cabin temperature acquiring unit that acquires a cabin temperature in a vehicle cabin of the vehicle; and a cabin temperature adjusting unit that adjusts the cabin temperature. The cabin temperature adjusting unit is configured to control, when the automatic driving determination unit determines that the automatic driving control is operating in the vehicle and the cabin temperature acquired by the cabin temperature acquiring unit exceeds a predetermined range, temperature adjusting means provided in the vehicle, thereby executing a temperature adjusting control to adjust the cabin temperature.

Various technologies described herein pertain to controlling an autonomous vehicle to provide indicators to distinguish the autonomous vehicle from other autonomous vehicles in a fleet. The autonomous vehicle includes a vehicle propulsion system, a braking system, a notification system, and a computing system. The notification system outputs an indicator that is perceivable external to the autonomous vehicle. The computing system receives data specifying an identity of a passenger to be picked up by the autonomous vehicle. Moreover, the computing system controls at least one of the vehicle propulsion system or the braking system to stop the autonomous vehicle for passenger pickup. Further, the computing system controls the notification system to output the indicator; a characteristic of the indicator outputted by the notification system is controlled based on the identity of the passenger to be picked up and whether the autonomous vehicle is stopped for passenger pickup.

A tribologically modified polyoxymethylene polymer composition is disclosed. The polyoxymethylene polymer composition is comprised of a polyoxymethylene polymer, reinforcing fibers, and at least one tribological modifier. The tribological modifier, in one embodiment, can comprise a graft copolymer. The use of a graft copolymer has been found to unexpectedly and dramatically improve noise generation when tested against various substrates, especially glass substrates.

A vehicle window control system including a vehicle assembly and a control assembly is disclosed herein. The vehicle assembly includes a vehicle having a driver door having a driver window and passenger doors having passenger windows. The windows are each controlled by an electric motor preciously existing in the vehicle. The driver door further includes a control area having the control assembly mounted thereon. The control assembly includes a switch panel that allows a user to control the windows of the vehicle. The control assembly allows a user to automatically sync all of the windows of the vehicle from the control area of the driver door. Additionally, the vehicle window control system allows a user to have all of the windows of a vehicle to lower a predetermined amount when the vehicle is engaged.

A lifter plate assembly for a window of a motor vehicle has a plastic main body. The main body includes a pair of rail guide hooks formed therein. The rail guide hooks are laterally spaced from one another and configured for sliding receipt of window regulator rails therein. A window clamp plate formed of the main body plastic extends in spaced relation from the main body to provide a receptacle configured for receipt of an edge of the window. A fastener assembly includes an elongate threaded member and a nut. The elongate threaded member extends through an opening in the main body and through an opening in the window clamp plate. At least one of the elongate threaded member and the nut is rotatable relative to the other to draw the window clamp plate and the main body toward one another to clamp against the edge of the window.

An apparatus of controlling a safety power window of a vehicle and a method thereof to not injure the body caught in a window frame, as well as to prevent a malfunction of the safety power window, by adaptively setting an operation reference value of the safety power window, may include a learning device that deep-learns a model which predicts an operation reference value of the safety power window provided in the vehicle, based on driving information of the vehicle, a sensor that collects the driving information of the vehicle, and a controller that obtains the operation reference value of the safety power window corresponding to current driving information of the vehicle by use of the model on which the deep learning is completed, and controls the safety power window according to the operation reference value of the safety power window.

A window control apparatus of a vehicle and a method thereof may include a sensor that collects state information of the vehicle, and a controller that subdivides an entire short drop section of a frameless window provided in the vehicle into a plurality of short drop sections, and performs a transition of the frameless window between a full closed state of the frameless window and a plurality of shot drop states corresponding to the plurality of shot drop sections, based on the state information of the vehicle.

A method includes predicting an environmental condition at a location to which a vehicle is travelling, the environmental condition including at least one of water, dust, and pollution, determining that an object within the vehicle is at a distance greater than a threshold distance from an unobstructed window of the vehicle, and then actuating the unobstructed window to a closed position based on the environmental condition and the object being at the distance from the window greater than the threshold distance.

An anti-pinch system, apparatus and/or method. The system includes an elastomeric tubing with an internal cavity that is connected to a pressure sensor to measure pressure increases within the cavity in the event of a pressure rise. The tubing and pressure sensor can be configured for placement in a vehicle for detecting obstacles when the tubing is positioned between moving and fixed closing elements, such as obstacles positioned between a moving vehicle door and door perimeter cavity