Abstract: A set of electronic package elements intended to be mounted on an electronic board having a component to be cooled including: a chassis, a heatsink fixed by a retaining piece inside the chassis, a cover configured to be fixed on the chassis so as to retain the electronic board in the package. The heatsink is configured to be fixed on the electronic board while maintaining a predetermined distance between a lower face of the heatsink and the component. The cover is configured to be able to be fixed by a fixing point to the heatsink. The retaining piece is connected to the heatsink so as to allow the heatsink a translational movement relative to the chassis in three orthogonal directions.

Abstract: A subassembly for a transport and a transport comprising a subassembly is disclosed. The subassembly has a support element, a component arranged on the support element, and a cover element arranged on the support element, adjoining the component. The support element has a lever mechanism which is configured to raise the cover element above a surface of the component in response to a force acting parallel to a surface of the cover element.

Abstract: A method for controlling a vehicle in a parking system including detecting a first vehicle in the parking system, determining the first vehicle as a hazard or obstacle uncontrollable by parking system, calculating a route to park a second vehicle in the parking system that avoids the first vehicle, and controlling to park the second vehicle according to the route

Abstract: A printed circuit board-and-plug arrangement comprises a printed circuit board from which at least one electrically conductive contact lug which is electrically connected to at least one conductor track of the printed circuit board protrudes, and a plug housing composed of insulating material, which plug housing has at least one opening, wherein a metal strip or metal wire is embedded in the insulating material so that at least a portion of the metal strip or the metal wire protrudes into the opening, wherein the plug housing is releasably connected to the printed circuit board so that the contact lug is inserted into the opening and thereby comes into contact with the portion, wherein the longitudinal direction of the contact lug and the longitudinal direction of the portion run perpendicularly in relation to one another.

Abstract: A method for determining a validity of a tire parameter of a tire of a vehicle including: detecting the tire parameter, detecting a value of a validity parameter, the validity parameter being a measure of the validity of the tire parameter, and determining that the detected tire parameter is valid if the detected value of the validity parameter is changed compared to a previous value of the validity parameter.

Abstract: A method for automated parking of a vehicle by means of a parking assistance system, comprises the parking assistance system requesting activation of a holding device in order to hold the vehicle stationary. For safety reasons, a vehicle monitoring system monitors a movement of the vehicle and, based on the movement established, decides whether the vehicle has been successfully held by means of the holding device, the vehicle being secured independently of the holding device and/or a warning signal being output if holding is not successful.

Abstract: A yaw rate control method comprises a yaw rate control function for stabilizing a vehicle carries out wheel-specific braking interventions based on a first reference yaw rate. A deactivation function is provided and activates the yaw rate control function as soon as at least one activation requirement is met. The activation requirement checks whether a longitudinal deceleration is greater than a longitudinal deceleration limit value, in particular by a sensor tolerance, a lateral acceleration is greater than a lateral acceleration limit value, in particular by a sensor tolerance, and a deviation between a second reference yaw rate and a measured yaw rate is greater than a yaw rate deviation limit value, in particular by a sensor tolerance.

Abstract: A combined drum wheel brake module comprises a brake holder which can be fixed on a motor vehicle for conjoint rotation and has a counter bearing which is equipped with two brake shoes. The brake shoes are mounted opposite one another for conjoint rotation and can be displaced radially outward in the direction of a brake rotor designed as a brake drum, and wherein, for the purpose of actuating the brakes, there are at least one transmission means and two actuating devices, which are made up as a hydraulic or electric service brake actuator and as an electric parking brake actuator. Both the service brake actuator and the electric parking brake actuator are placed fixed next to one another in a semi-circle on the brake holder.

Abstract: A display apparatus includes a display panel and a backlight for the display panel. The backlight has a reflector with a plurality of regularly shaped, reflectively embodied cavities which are arranged in a grid. The reflector also has irregularly shaped, reflectively embodied cavities in at least one peripheral region. In addition, the backlight has a plurality of light sources arranged in the cavities.

Abstract: A computer-implemented method for predicting trajectories is disclosed based on a main neural network by fusing data-driven and knowledge-driven features.

Abstract: A display apparatus and a means of transportation having such a display apparatus is disclosed. The display apparatus has a display panel and a backlight for the display panel. The backlight has a reflector consisting of a plurality of modules with a plurality of reflectively configured cavities, and a plurality of light sources in each case arranged in the cavities. Provision is made between adjacent modules for a possible thermal expansion of the modules.

Abstract: A head-up display for transportation, having a picture generating unit for generating an image, an optical unit for projecting the image through a mirror unit, and a folding mirror whose angle of incidence and angle of reflection are not the same and wherein the folding mirror is arranged between a light source and a display element through which light therefrom radiates is disclosed.

Abstract: A method of determining a left or right side installation position of a trailer wheel of a trailer connected to a tow vehicle. A number of rotations of the trailer wheel is determined using an acceleration sensor, and a number of rotations of a left side tow vehicle wheel and a right side tow vehicle wheel is determined using an ABS sensor or ESP sensor of the left side tow vehicle wheel and the right side two vehicle wheel, respectively. A first correspondence value between the number of rotations of the trailer wheel and the number of rotations of the left side tow vehicle wheel is determined. A second correspondence value between the number of rotations of the trailer wheel and the number of rotations of the right side tow vehicle wheel is determined. A left side or right side installation position of the trailer wheel is determined based on the first correspondence value and the second correspondence value.

Abstract: A heat transfer device for integrating with a backlight unit for an edge-lit motor vehicle display apparatus includes an anterior capillary tube operable to integrate with a rear side of the backlight unit, the anterior capillary tube further operable to dissipate heat from an anterior of a backlight unit of a motor vehicle display. The heat transfer device further includes a posterior capillary tube operable to be positioned away from the backlight unit, the posterior capillary tube further operable to dissipate heat from a posterior of a backlight unit of a motor vehicle display. The heat transfer device further comprises a phase changing medium operable to fluidly transfer between the first capillary tube and the second pillar tube during a heat transfer process, where the phase changing medium is operable to phase change between a gaseous state and a liquid state during the heat transfer process.

Abstract: A method for changing a ride height position of a motor vehicle comprises measuring a respective relative distance of a vehicle superstructure from corresponding wheels, with spring travel sensors and transmitting a respective spring travel signal to an electronic open-loop and closed-loop control device of the motor vehicle. The spring travel signals pass through a frequency filtering in the electronic open-loop and closed-loop control device The frequency filtering initially comprising a bandpass filtering which splits the spring travel signal into a signal component excited by the wheel and a signal component excited by the vehicle superstructure. The signal component excited by the vehicle superstructure is filtered out, the frequency filtering then comprising an absolute value conversion of the bandpass-filtered spring travel signal and subsequently a low-pass filtering.

Abstract: A method for adapting a system air volume in an air suspension system of a motor vehicle, wherein a setpoint system air volume is determined on the basis of a vehicle body weight of the motor vehicle, wherein the setpoint system air volume is set as discretely or variably increasing in relation to the vehicle body weight.

Abstract: A display device and a dashboard having such a display device is disclosed. The disclosure moreover relates to a motor vehicle having such a dashboard. The display device has a display module having a display panel and a housing for receiving the display module. The housing on two opposite sides has resilient fastening elements. The latter are designed in such a manner that a force acting perpendicularly on the display panel causes a rotation of the display device about an axis perpendicular to the two opposite sides.

Abstract: A display device and a motor vehicle having such a display device is disclosed. The display device has a display panel and a backlight for the display panel. The backlight has a reflector having a plurality of reflectively embodied cavities, and a plurality of light sources in each case arranged in the cavities. Moreover, the backlight has support elements, which are transparent to light emitted by the light sources and protrude at least partially into a gap between the cavities and an optical component arranged below the display panel.

Abstract: A display device and a dashboard comprising a display device is disclosed. The disclosure moreover relates to a motor vehicle having such a dashboard. The display device has a display module having a display panel and a housing for receiving the display module. The housing has resilient bistable fastening elements. The latter are designed in such a manner that said fastening elements when responding to a movement of a steering column of the transportation move the display device out of a collision region with the steering column or a steering wheel.

Abstract: A subassembly for a transport and a transport comprising a subassembly is disclosed. The subassembly has a carrier element with fastening elements for fastening the subassembly in the transport. The fastening elements are an integral part of the carrier element. At least individual fastening elements are configured as energy-absorbing.