A control system and method for a vehicle is provided. The system comprises a poly-shifter, an RF Hub, a transmission control module (TCM) and a controller. The poly-shifter is configured to be moved between operating states including “Park” and “Non-Park” positions. The RF Hub supports operational features of the vehicle. The TCM determines a lock state of a parking pawl in a transmission of the vehicle and communicates the lock state to the RF Hub. The controller is configured to determine whether a driver has exited the vehicle with the poly-shifter in a “Non-Park” position. The controller is further configured to power down the vehicle based on the lock state of the parking pawl being in a “Park” position and the driver exiting the vehicle with the poly-shifter in the “Non-Park” position.

A control system and method for a vehicle is provided. The system comprises a poly-shifter, an RF Hub, a transmission control module (TCM) and a controller. The poly-shifter is configured to be moved between operating states including “Park” and “Non-Park” positions. The RF Hub supports operational features of the vehicle. The TCM determines a lock state of a parking pawl in a transmission of the vehicle and communicates the lock state to the RF Hub. The controller is configured to determine whether a driver has exited the vehicle with the poly-shifter in a “Non-Park” position. The controller is further configured to power down the vehicle based on the lock state of the parking pawl being in a “Park” position and the driver exiting the vehicle with the poly-shifter in the “Non-Park” position.

A gearbox system for a vehicle includes an automated manual gearbox; a gearbox control device which controls the gearbox; a monostable toggle switch which is movable by a user in two deflection directions to select a plurality of driving ranges of the gearbox control device, and a visual device which displays graphically a gearshift diagram with driving ranges selectable by the monostable toggle switch. The gearbox control device has a further driving range which cannot be selected by the monostable toggle switch but can be exited by moving the monostable toggle switch. The visual device has at least one display to display a symbol indicating at least one deflection direction by which the further driving range can be exited. The gearbox control device may control the at least one display such that the symbol is only displayed when the further driving range is selected.

A gearbox system for a vehicle includes an automated manual gearbox; a gearbox control device which controls the gearbox; a monostable toggle switch which is movable by a user in two deflection directions to select a plurality of driving ranges of the gearbox control device, and a visual device which displays graphically a gearshift diagram with driving ranges selectable by the monostable toggle switch. The gearbox control device has a further driving range which cannot be selected by the monostable toggle switch but can be exited by moving the monostable toggle switch. The visual device has at least one display to display a symbol indicating at least one deflection direction by which the further driving range can be exited. The gearbox control device may control the at least one display such that the symbol is only displayed when the further driving range is selected.

A riveted joint comprising: an upper workpiece and a lower workpiece, and a self-piercing rivet. The rivet in an undeformed state, before the creation of the riveted joint, included: a head defining a head diameter (DH); a shank defining a shank diameter (DS); and a foot end opposite the head. Radially outward at the foot end is a flat surface facing away from the head; and an axial recess located radially inward of the flat surface, partly defined in the foot end, open axially away from the head, and frustoconical in longitudinal cross section. The axial recess defining an axial depth (LB). The ratio of recess axial depth (LB) to shank diameter (DS) is less than 0.3. And in a deformed state, after the creation of the riveted joint, the rivet extends through the first workpiece and penetrates the second workpiece; and the head bears against the upper surface.

An operating method for a driver assistance system, in particular a cruise control system of a motor vehicle. The operating method comprises determining at least one operationally relevant road property of a road on an impending route of the motor vehicle, wherein the operationally relevant road property affects operation of an internal combustion engine of the motor vehicle. The operating method comprises determining a driving recommendation in accordance with the operationally relevant road property on the impending route of the motor vehicle. The operating method comprises setting the variable valve gear in accordance with the driving recommendation determined.

An operating method for a driver assistance system, in particular a cruise control system of a motor vehicle. The operating method comprises determining at least one operationally relevant road property of a road on an impending route of the motor vehicle, wherein the operationally relevant road property affects operation of an internal combustion engine of the motor vehicle. The operating method comprises determining a driving recommendation in accordance with the operationally relevant road property on the impending route of the motor vehicle. The operating method comprises setting the variable valve gear in accordance with the driving recommendation determined.

A vehicle control system controls a vehicle equipped with a gearshift. The vehicle control system includes: one or more processors configured to execute automated driving control of the vehicle; and a notification device configured to notify an operator of the vehicle of information. The one or more processors determine whether or not a first gear position being a gear position required in the automated driving control and a second gear position being a gear position specified by the gearshift are consistent with each other. When the first gear position and the second gear position are not consistent with each other during execution of the automated driving control, the one or more processors notify through the notification device first information at least indicating that a current gear position is the first gear position.

A vehicle shifter is provided for selecting gears of a vehicle transmission. The vehicle shifter including: a base configured for mounting to a center floor console of a vehicle; a first rotary knob positioned on the base and rotatable about an axis; and a second rotary knob positioned on the base and below the first rotary knob and rotatable about the same axis as the first rotary knob, wherein rotation of one of the first rotary knob and the second rotary knob causes selection of the gears of the vehicle transmission, and rotation of the other one of the first rotary knob and the second rotary knob provides input for a secondary function.

A vehicle shifter is provided for selecting gears of a vehicle transmission. The vehicle shifter including: a base configured for mounting to a center floor console of a vehicle; a first rotary knob positioned on the base and rotatable about an axis; and a second rotary knob positioned on the base and below the first rotary knob and rotatable about the same axis as the first rotary knob, wherein rotation of one of the first rotary knob and the second rotary knob causes selection of the gears of the vehicle transmission, and rotation of the other one of the first rotary knob and the second rotary knob provides input for a secondary function.