A method for providing operation data onboard a first vehicle with autonomous capabilities. The method presents an image of an exterior view from the first vehicle with autonomous capabilities, by a user interface touchscreen communicatively coupled to a processor and system memory element; receives user input data to manipulate the image, via the user interface touchscreen; adjusts the image, by the processor, based on the user input data; modifies an operation parameter of the first vehicle with autonomous capabilities, by the processor, based on the user input data, to generate a modified operation parameter, wherein the operation parameter comprises at least one of a following distance, a stopping distance, or a turning speed; and transmits the modified operation parameter, via a communication device communicatively coupled to the processor.

An electronic control unit that is installed on a vehicle connected to a trailer and capable of towing the trailer changes travel control of the vehicle according to a type of the trailer when the trailer is connected to the vehicle.

In an operating method for an emergency vehicle, especially a fire truck, having a vehicle body, a drive unit having a drive motor and a motor controller, front-wheel and rear-wheel pairs, an emergency aggregate, a signaling device, an illuminating device, and a mode-of-operation controller having a mode-of-operation selector switch having selectable operation modes and a memory with saved operating-data sets, by a sequence controller of the mode-of-operation controller, selecting a first operation mode corresponding to an emergency trip transmits from the memory to the target systems, and activates, first operating-data data sets. Selecting a second operation mode corresponding to an emergency mode deactivates the transmitted first operation mode operating-data sets, and transmits from the memory to the target systems, and activates, second operating-data sets. Selecting a third operation mode corresponding to a standard operation mode deactivates the transmitted data sets of the first, second or any further operation modes.

An assembly for changing at least one safety feature predefined setting associated with at least one vehicular active safety system includes a computer and a human-machine interface. The computer is configured to change the at least one safety feature predefined setting based on a driver choice. The at least one safety feature predefined setting is selected from the group consisting of a response type and a response timing. The human-machine interface includes an output and an input. The output is configured to provide a driver with a range of customizable settings for the at least one safety feature predefined setting. The input is configured to accept at least one customizable setting chosen by the driver such that the at least one safety feature predefined setting is changed to the at least one customizable setting.

A method for adjusting a modulation of at least one electrical operating parameter of at least one component of a power electronics unit, wherein an electric machine of a vehicle is operated by the power electronics unit, wherein the modulation is adjusted by a user of the vehicle.

The present disclosure relates to a monitoring system for a vehicle, a vehicle comprising such a monitoring system, a method for monitoring such a vehicle and a computer program element for monitoring such a vehicle. The monitoring system comprises a display unit, an adjustment tool and a control unit. The control unit is configured to generate an energy flow map showing an energy flow from an energy storage system to at least one sub-system of the vehicle. The display unit is configured to display the energy flow map, to graphically emphasize the at least one sub-system and to display a current energy consumption of the sub-system. The control unit is further configured to adjust the energy consumption of the sub-system based on a user's input to the adjustment tool.

The present disclosure provides a method and an apparatus for vehicle control. The method includes: obtaining (101) manual operation information of a vehicle; determining (102) an intervention intention of a driver based on the manual operation information; and controlling (103), when the vehicle is currently in an automated driving mode and the intervention intention is determined to be a slow intervention, the vehicle to reach a predetermined safe state and handing corresponding control of the vehicle over to the driver. The method and apparatus can solve potential safety problems in vehicle control and improve safety of the vehicle control.

An adaptive cruise control system and method for controlling a speed of a vehicle includes determine a distance between a controlled vehicle a target vehicle with a distance sensor. An input sensor senses an input from a driver of the controlled vehicle in relation to the desired distance between the controlled vehicle and the target vehicle. An adaptive cruise control module receives a data set of a plurality of data points regarding the operation of the controlled vehicle. An artificial neural network is configured to receive the data set in response to the input from the driver being sensed and calculate a change in the desired distance in response to a change in at least one of the data points. A requested distance between vehicles is then changed based on at least one of the input from the driver and the calculated change in the desired distance by the artificial neural network.

Methods, apparatuses, and systems for controlling regenerative braking of a vehicle are disclosed. A user interface facilitates a user to provide an input to select an operating mode for the vehicle, the operating mode selected from one of selectable modes comprising: (i) manually controlled regenerative braking mode and (ii) automatically controlled regenerative braking mode. When the (i) mode is selected, the controller applies a scaling factor to the regenerative torque capability curve of the vehicle based on additional user input. When the (ii) mode is selected, the controller automatically applies the scaling factor based on one or more traction control events and environmental factors.

A system includes a processor configured to receive a first set of user-selected parameters, including first user-defined parameter values, the first set defining a condition for engaging a specific user-selected vehicle driving mode. The processor is also configured to receive data indicating current parameter values and automatically engage the user-selected vehicle driving mode responsive to the current parameter values matching first user-defined parameter values.