The invention relates to a method for adjusting at least one control parameter (KP) of an internal combustion engine (200) by means of at least two setting parameters (SP), having the following steps: determining an optimum steady-state combination (110) of the at least two setting parameters (SP) in order to obtain the setpoint value (104) under steady-state boundary conditions, producing a functional dynamic relationship (120) between the control error (100), a setting expenditure (130) for the at least two setting parameters (SP) and the determined steady-state combination (110), optimizing the dynamic relationship (120) in order to determine an optimum dynamic combination (140) of the at least two setting parameters (SP), and using the optimum dynamic combination (140) for the following adjustment step during the adjustment of the at least one control parameter (KP).

A propulsion control system for a vehicle includes a driver pedal, a driver pedal position sensor that outputs a driver pedal position signal that indicates a position of the driver pedal, a memory that stores a first pedal map, and a processor that generates a torque request based upon the driver pedal position signal and the first pedal map. The first pedal map correlates a value of the driver pedal position signal to the torque request for a propulsion system in the vehicle and a first portion of the first pedal map near a traction limit has a first slope that defines the rate of change of the torque request to be less than the rate of change of the pedal position.

This application discusses various ways to adjust the performance of a variable input control in accordance with previous use data. In some embodiments, the previous use data can be associated with particular users of the variable input control. In this way, a response provided by the user input control can be adjusted to accommodate particular patterns of use on a user by user basis. In some embodiments, the variable input control can take the form of an accelerator pedal of a vehicle. Performance of the accelerator pedal can be adjusted by changing an amount of engine power provided for a particular accelerator pedal position. The adjustment can arrange commonly utilized power settings in the middle of the accelerator pedal range of motion to make manipulation of the accelerator pedal more comfortable and convenient for each user of the accelerator pedal.

In one aspect of the invention there is provided a motor vehicle comprising an engine, the vehicle being operable automatically to stop the engine responsive to a determination that the engine is not required to provide torque to drive the vehicle, wherein the vehicle comprises control means operable to monitor a value of one or more parameters associated with the vehicle during a drive cycle, the control means being arranged automatically to determine whether a current driving style of a driver corresponds to an economy-oriented driving style or a performance-oriented driving style responsive to the value of the one or more parameters over time during the drive cycle, the control means being operable to over-ride stopping of the engine when it is determined that the driving style of the driver corresponds to a performance-oriented style.

In one aspect of the invention there is provided a motor vehicle comprising an engine, the vehicle being operable automatically to stop the engine responsive to a determination that the engine is not required to provide torque to drive the vehicle, wherein the vehicle comprises control means operable to monitor a value of one or more parameters associated with the vehicle during a drive cycle, the control means being arranged automatically to determine whether a current driving style of a driver corresponds to an economy-oriented driving style or a performance-oriented driving style responsive to the value of the one or more parameters over time during the drive cycle, the control means being operable to over-ride stopping of the engine when it is determined that the driving style of the driver corresponds to a performance-oriented style.

A device for controlling an engine includes: a first control circuit having a first controller, and a second control circuit having a second controller, the controllers being designed to control a state variable of the engine in each case. The second controller is disposed in such a way that it lies closer to the engine than the second controller in terms of signal technology.

A device for controlling an engine includes: a first control circuit having a first controller, and a second control circuit having a second controller, the controllers being designed to control a state variable of the engine in each case. The second controller is disposed in such a way that it lies closer to the engine than the second controller in terms of signal technology.

A method of determining at least one of a rotational angle position and a rotational speed of a rotating element of a drive train includes arranging at least two sensors in an offset manner in a circumferential direction of the rotating element, recording a measured value indicative of a characteristic of a rotation of the rotating element with each sensor, and determining at least one of a rotational angle position and a rotational speed with reference to the measured values and a distance between the at least two sensors in the circumferential direction.

In one aspect, a method for detecting and diagnosing a coolant leak of an engine may include diagnosing a coolant leak of the engine based on a low frequency pressure response of a measured engine coolant pressure. In another aspect, an engine system (e.g., for a vehicle) includes an engine and a coolant system operatively connected to the engine. The coolant system includes a coolant reserve and a coolant pump between the engine and the coolant reserve. The engine system also includes a coolant pressure sensor to measure coolant pressure, and a controller configured to measure an engine coolant pressure and diagnose a coolant leak of the coolant system based on a low frequency pressure response of the measured engine coolant pressure.

This application discusses various ways to adjust the performance of a variable input control in accordance with previous use data. In some embodiments, the previous use data can be associated with particular users of the variable input control. In this way, a response provided by the user input control can be adjusted to accommodate particular patterns of use on a user by user basis. In some embodiments, the variable input control can take the form of an accelerator pedal of a vehicle. Performance of the accelerator pedal can be adjusted by changing an amount of engine power provided for a particular accelerator pedal position. The adjustment can arrange commonly utilized power settings in the middle of the accelerator pedal range of motion to make manipulation of the accelerator pedal more comfortable and convenient for each user of the accelerator pedal.