Abstract: The invention relates to a sensor assembly for recognizing a state of a roadway, including a sensor device, which is adapted to capture an impact of water on a wheel arch lining of a motor vehicle during a travel of the motor vehicle on the roadway, and including a control device for recognizing the state of the roadway based on the impact of the water captured by means of the sensor device, wherein the sensor device includes an ultrasonic sensor, which is adapted to receive an ultrasonic signal and which is additionally adapted to capture the impact of the water on the wheel arch lining.

Abstract: A control device and corresponding motor vehicle for connecting a CAN bus to a radio network, having the following features: the control device includes a wireless controller, a microcontroller, a first CAN transceiver and a second CAN transceiver; the microcontroller is connected, on the one hand, to the wireless controller and, on the other hand, to the CAN transceivers; the first CAN transceiver is connected to the second CAN transceiver; the first CAN transceiver is configured in such a manner that it suppresses transmission via the CAN bus and supports reception via the CAN bus in a normal mode and supports transmission and reception in a diagnostic mode; and the second CAN transceiver is configured in such a manner that it changes the first CAN transceiver from the normal mode to the diagnostic mode when the second CAN transceiver receives a wake-up frame via the CAN bus.

Abstract: The invention relates to a sensor assembly for recognizing a state of a roadway, including a sensor device, which is adapted to capture an impact of water on a wheel arch lining of a motor vehicle during a travel of the motor vehicle on the roadway, and including a control device for recognizing the state of the roadway based on the impact of the water captured by means of the sensor device, wherein the sensor device includes an ultrasonic sensor, which is adapted to receive an ultrasonic signal and which is additionally adapted to capture the impact of the water on the wheel arch lining.

Abstract: A method is provided for semi-automatically adjusting a chassis of a vehicle. The vehicle (10) assesses a state of the road by means of a sensor system of the vehicle and transmits the state of the road to a central server. A further vehicle (10) interrogates the state of the road from the server and recommends adjustment of the chassis as a function of the interrogated state of the road. The invention also relates to a device for carrying out such a method.

Abstract: A control device and corresponding motor vehicle for connecting a CAN bus to a radio network, having the following features: the control device includes a wireless controller, a microcontroller, a programmable logic module and a CAN transceiver; the microcontroller is connected, on the one hand, to the wireless controller and, on the other hand, to the logic module; the CAN transceiver is connected, on the one hand, to the logic module and, on the other hand, to the CAN bus; a data stream to the microcontroller corresponds to a data stream from the CAN transceiver; and the logic module is configured in such a manner that it monitors a data stream from the microcontroller which is addressed to the CAN transceiver and, on the basis of a data frame contained in the data stream from the microcontroller, suppresses at least this data frame.

Abstract: A control device, which connects a controller area network (CAN) bus to a radio network, includes a wireless controller, a microcontroller, a CAN controller and a CAN transceiver. The CAN controller has a first channel and a second channel for transmitting (Tx) and receiving (Rx) frames. The microcontroller is connected, on the one hand, to the wireless controller and, on the other hand, to the first channel of the CAN controller. The CAN transceiver is connected, on the one hand, to the second channel of the CAN controller and, on the other hand, to the CAN bus. The CAN controller configured in such a manner that it transmits or blocks a frame received on the first channel on the basis of an identifier of the frame on the second channel. Also described is a motor vehicle having such a control device.

Abstract: A method for transmitting data between a vehicle and a terminal, in which data to be transmitted are transmitted on the basis of at least one digital signature generated by a security module in a vehicle key for the vehicle, the vehicle key also comprising at least one interface for communicating with the terminal and/or the vehicle and at least one microprocessor, and the microprocessor being used to check a trustworthiness of the data to be transmitted via the interface. Also, a corresponding vehicle key and vehicle having a system for transmitting data.

Abstract: A device for varying the swept volumes of first and second hydraulic machines, whose swept volumes depends upon pivoting positions of adjustable axes thereof which can be connected to one another by first and second lines. The axes can be coupled to a piston-cylinder device which is adjustable by a control valve unit for pivoting the axes. Pressures in the area of the hydraulic machines can be limited by the control valve unit. The control valve unit can be coupled to a respective first or second line with the highest pressure. A device for determining an existing actual pressure is located upstream of the control valve unit, at least in the area of one of the first and the second lines that connects with the first and the second hydraulic machines. The control valve unit can be actuated based on the actual pressure value determined by the device.

Abstract: A method is provided for unmanned control of at least one vehicle by a central processing unit. The central processing unit controls the at least one vehicle on a route determined by the central processing unit from a first location on the route to at least one second location on the route. The second location on the route is a parking site. The central processing unit further controls the vehicle so that the vehicle, after a parking operation at the second location, is provided automatically to a user for acceptance at a retrieval location as further location on the route. The route is calculated by the central processing unit dynamically depending on information concerning further routes for further vehicles managed by the central processing unit.

Abstract: A control device and corresponding motor vehicle for connecting a CAN bus to a radio network, having the following features: the control device includes a wireless controller, a microcontroller, a first CAN transceiver and a second CAN transceiver; the microcontroller is connected, on the one hand, to the wireless controller and, on the other hand, to the CAN transceivers; the first CAN transceiver is connected to the second CAN transceiver; the first CAN transceiver is configured in such a manner that it suppresses transmission via the CAN bus and supports reception via the CAN bus in a normal mode and supports transmission and reception in a diagnostic mode; and the second CAN transceiver is configured in such a manner that it changes the first CAN transceiver from the normal mode to the diagnostic mode when the second CAN transceiver receives a wake-up frame via the CAN bus.

Abstract: A control device and corresponding motor vehicle for connecting a CAN bus to a radio network, having the following features: the control device includes a wireless controller, a microcontroller, a programmable logic module and a CAN transceiver; the microcontroller is connected, on the one hand, to the wireless controller and, on the other hand, to the logic module; the CAN transceiver is connected, on the one hand, to the logic module and, on the other hand, to the CAN bus; a data stream to the microcontroller corresponds to a data stream from the CAN transceiver; and the logic module is configured in such a manner that it monitors a data stream from the microcontroller which is addressed to the CAN transceiver and, on the basis of a data frame contained in the data stream from the microcontroller, suppresses at least this data frame.

Abstract: A control device, which connects a CAN bus (CAN H/L) to a radio network, includes a wireless controller, a microcontroller, a CAN controller and a CAN transceiver. The CAN controller has a first channel and a second channel for transmitting (Tx) and receiving (Rx) frames. The microcontroller is connected, on the one hand, to the wireless controller and, on the other hand, to the first channel of the CAN controller. The CAN transceiver is connected, on the one hand, to the second channel of the CAN controller and, on the other hand, to the CAN bus (CAN H/L). The CAN controller is configured in such a manner that it transmits or blocks a frame received on the first channel on the basis of an identifier of the frame on the second channel. Also described is a motor vehicle having such a control device.

Abstract: A method for transmitting data between a vehicle and a terminal, in which data to be transmitted are transmitted on the basis of at least one digital signature generated by a security module in a vehicle key for the vehicle, the vehicle key also comprising at least one interface for communicating with the terminal and/or the vehicle and at least one microprocessor, and the microprocessor being used to check a trustworthiness of the data to be transmitted via the interface. Also, a corresponding vehicle key and vehicle having a system for transmitting data.

Abstract: A method is provided for semi-automatically adjusting a chassis of a vehicle. The vehicle (10) assesses a state of the road by means of a sensor system of the vehicle and transmits the state of the road to a central server. A further vehicle (10) interrogates the state of the road from the server and recommends adjustment of the chassis as a function of the interrogated state of the road. The invention also relates to a device for carrying out such a method.

Abstract: A device for varying the swept volumes of first and second hydraulic machines, whose swept volumes depends upon pivoting positions of adjustable axes thereof which can be connected to one another by first and second lines. The axes can be coupled to a piston-cylinder device which is adjustable by a control valve unit for pivoting the axes. Pressures in the area of the hydraulic machines can be limited by the control valve unit. The control valve unit can be coupled to a respective first or second line with the highest pressure. A device for determining an existing actual pressure is located upstream of the control valve unit, at least in the area of one of the first and the second lines that connects with the first and the second hydraulic machines. The control valve unit can be actuated based on the actual pressure value determined by the device.

Abstract: A method for presenting a vehicle's environment on a display apparatus includes capturing a plurality of image sections by recording via an image capturing unit a plurality of pixels for forming an image section. The method proceeds by merging the plurality of image sections to form an environment image representing the vehicle's environment. The method continues by presenting the environment image on the display apparatus and determining a pixel distance between at least one of the pixels and the image capturing unit. The method then automatically displays on the display apparatus the image section associated with the at least one pixel in dependence on the pixel distance and/or images the at least one pixel onto an imaged pixel in the environment image in dependence on the pixel distance.

Abstract: A method is provided for unmanned control of at least one vehicle by a central processing unit. The central processing unit controls the at least one vehicle on a route determined by the central processing unit from a first location on the route to at least one second location on the route. The second location on the route is a parking site. The central processing unit further controls the vehicle so that the vehicle, after a parking operation at the second location, is provided automatically to a user for acceptance at a retrieval location as further location on the route. The route is calculated by the central processing unit dynamically depending on information concerning further routes for further vehicles managed by the central processing unit.

Abstract: A method of operating a vehicle drive-train during a starting process. The drive-train has a drive mechanism which can couple a continuously-variable power-branched transmission in which a plurality of transmission ratios can be engaged. The transmission ratios can be varied continuously by adjusting a variator, the transmission driving a drive output. A force flow between the drive mechanism and the drive output can be produced by a frictional shifting element by appropriately adjusting the transmission capacity of the shifting element. When a start command is issued, a starting transmission ratio is engaged in the area of the transmission device. During the engagement of the starting transmission ratio the transmission capacity of the frictional shifting element is adjusted to values greater than zero.

Abstract: A method for operating a first-party vehicle that is traveling in a current lane along a road that is divided into a plurality of lanes includes announcing an intended change for the first-party vehicle from the current lane to a further, adjacent lane by activation of a direction-of-travel indicator. A trajectory is calculated for the first-party vehicle that is conditional upon the intended change to the further lane in response to the announcement of the intended change to the further lane. Information is evaluated about at least one kinematic variable for a third-party vehicle so as to calculate an envisaged trajectory for the at least one third-party vehicle. A check is performed so as to determine whether the trajectory of the first-party vehicle that is conditional upon the intended change coincides with the envisaged trajectory of the at least one third-party vehicle at a future instant.

Abstract: A method of operating a vehicle drive-train during a starting process. The drive-train has a drive mechanism which can couple a continuously-variable power-branched transmission in which a plurality of transmission ratios can be engaged. The transmission ratios can be varied continuously by adjusting a variator, the transmission driving a drive output. A force flow between the drive mechanism and the drive output can be produced by a frictional shifting element by appropriately adjusting the transmission capacity of the shifting element. When a start command is issued, a starting transmission ratio is engaged in the area of the transmission device. During the engagement of the starting transmission ratio the transmission capacity of the frictional shifting element is adjusted to values greater than zero.