A throttle pedal assembly comprises a base, a pedal pivotably mounted on the base, and a gear box coupled to the pedal. The gear box has a throttle wheel with a plurality of throttle cable terminal attachment locations and the gear box has a plurality of throttle cable mounting locations. A throttle cable is selectively and releasably attached to one of said plurality of throttle cable terminal attachment locations, and the throttle cable is selectively and releasably attached to one of said plurality of throttle cable mounting locations.

A throttle pedal assembly comprises a base, a pedal pivotably mounted on the base, and a gear box coupled to the pedal. The gear box has a throttle wheel with a plurality of throttle cable terminal attachment locations and the gear box has a plurality of throttle cable mounting locations. A throttle cable is selectively and releasably attached to one of said plurality of throttle cable terminal attachment locations, and the throttle cable is selectively and releasably attached to one of said plurality of throttle cable mounting locations.

One or more techniques and/or systems are disclosed for automatically obtaining a profile for a set of accelerator pedal position sensors in a target vehicle. The profile can comprise a correlation of the position of the pedal to an output signal for one or more sensor in the set of sensors. A pedal position sensor signal reader can be used to automatically detect signals from one or more pedal position sensor in the target vehicle's accelerator pedal, while the pedal is released, depressed, and moving between the released and depressed positions. A pedal profile can be automatically generated using the output signals and corresponding pedal positions. Obtained data can be used to program a speed control device for the target vehicle. Correlated output can be used to adjust the speed of the vehicle by sending an emulated signal to the ECM, which may adjust the speed control system.

A driver assistance system is provided that allows a driver to easily perform an accelerator operation by a finger of his/her hand while grasping a steering holding section. The driver assistance system includes an operation member near a steering wheel held by a driver, which rotates about a rotation shaft in a vehicle front-rear direction and thereby steers the vehicle. The operation member has an operation section that the driver can manually operate to accelerate/decelerate the vehicle, and includes a support member on the steering wheel, the support member supporting the operation member in a slidingly displaceable manner along a steering axial direction. The operation section is disposed near a radially inner side of a rim section of the steering wheel, and the operation section and the rim section overlap in the steering axial direction within a movable range of the operation member along the steering axial direction.

A driver assistance system is provided that allows a driver to easily perform an accelerator operation by a finger of his/her hand while grasping a steering holding section. The driver assistance system includes an operation member near a steering wheel held by a driver, which rotates about a rotation shaft in a vehicle front-rear direction and thereby steers the vehicle. The operation member has an operation section that the driver can manually operate to accelerate/decelerate the vehicle, and includes a support member on the steering wheel, the support member supporting the operation member in a slidingly displaceable manner along a steering axial direction. The operation section is disposed near a radially inner side of a rim section of the steering wheel, and the operation section and the rim section overlap in the steering axial direction within a movable range of the operation member along the steering axial direction.

A velocity adjustment system for adjusting a driving velocity of a includes a driver control device configured to receive actuation input from a driver, the actuation input including an actuation parameter. The system further includes an actuation sensor configured to detect the actuation parameter and to output a sensor signal and a velocity control device configured to record the sensor signal and evaluate the actuation input. The velocity control device is designed to compare the actuation parameter with a reference value and to output, based on the comparison, a request signal to an engine control device or a braking request signal to brake control device of a brake system.

A velocity adjustment system for adjusting a driving velocity of a includes a driver control device configured to receive actuation input from a driver, the actuation input including an actuation parameter. The system further includes an actuation sensor configured to detect the actuation parameter and to output a sensor signal and a velocity control device configured to record the sensor signal and evaluate the actuation input. The velocity control device is designed to compare the actuation parameter with a reference value and to output, based on the comparison, a request signal to an engine control device or a braking request signal to brake control device of a brake system.

A working machine has a display device including: an area display portion to display a setting area for setting the first priority value, the second priority value, and the third priority value; a first axis display portion including a first scale portion indicating the first priority value depending on a distance from the reference point; a second axis display portion including a second scale portion indicating the second priority value depending on a distance from the reference point; a third axis display portion including a third scale portion indicating the third priority value depending on a distance from the reference point; and a marker display portion to be indicated in a partial area corresponding to at least two of the first axis display portion, the second axis display portion, and the third axis display portion.

A working machine has a display device including: an area display portion to display a setting area for setting the first priority value, the second priority value, and the third priority value; a first axis display portion including a first scale portion indicating the first priority value depending on a distance from the reference point; a second axis display portion including a second scale portion indicating the second priority value depending on a distance from the reference point; a third axis display portion including a third scale portion indicating the third priority value depending on a distance from the reference point; and a marker display portion to be indicated in a partial area corresponding to at least two of the first axis display portion, the second axis display portion, and the third axis display portion.

A method for operating a drive-train having two drives, a drive output, a manual transmission having a planetary gearset and two independent load paths. From the first and second drives, torque can pass to the output via respective first and second paths. The two drives can be coupled to respective elements of the planetary gearset, and the transmission is coupled to a web gear. To start, when torque passes to the output first via a second path gear and thereafter via a first path gear whose ratio is different from that of the second path gear, then before changing from the second path to the first path, the torque passed at the web gear is changed such that if torque desired by the driver is unchanged, despite the change from the second to the first path, the torque acting at the output remains constant.