The present disclosure is directed to controlling state transitions in an autonomous vehicle. In particular, a computing system can initiate the autonomous vehicle into a no-authorization state upon startup. The computing system can receive an authorization request. The computing system determines whether the authorization request includes a request to enter the first or second mode of operations, wherein the first mode of operations is associated with the autonomous vehicle being operated without a human operator and the second mode of operations is associated with the autonomous vehicle being operable by a human operator. The computing system can transition the autonomous vehicle from the no-authorization state into a standby state in response to determining the authorization request includes a request to enter the first mode of operations or into a manual-controlled state in response to determining the authorization request is a request to enter the second mode of operations.

The present disclosure is directed to state-based autonomous-vehicle operations. In particular, the methods, devices, and systems of the present disclosure can: determine, based at least in part on one or more actions of a passenger associated with a trip of an autonomous vehicle, a current state of the trip from amongst a plurality of different predefined states of the trip; identify, based at least in part on the current state of the trip, one or more computing devices associated with the passenger; generate, based at least in part on the current state of the trip, data describing one or more interfaces for display by the computing device(s) associated with the passenger; and communicate, to the computing device(s) associated with the passenger, the data describing the interface(s) for display.

A method for controlling a preparation function for an operation of a motor vehicle includes determining an expected time of use of the motor vehicle based on a previous journey of the motor vehicle. The motor vehicle includes a time switch configured to control the preparation function. The method also includes outputting the specified time of use and detecting a confirmation of the time of use. The method also includes setting the time switch to prepare the motor vehicle at the confirmed time of use.

High-performance road vehicle having: a plurality of replaceable or removable components; a control unit, which controls the operation of the road vehicle; at least one electronic identification device, which is fitted on a corresponding component, has a memory designed to contain at least one unique identifying code of the component and has a first transmission organ designed to send the data contained in the memory; and a second transmission organ, designed to communicate with the first transmission organ and connected to the control unit to allow the control unit to read the univocal identifying code of the component.

The present disclosure is directed to state-based autonomous-vehicle operations. In particular, the methods, devices, and systems of the present disclosure can: determine, based at least in part on one or more actions of a passenger associated with a trip of an autonomous vehicle, a current state of the trip from amongst a plurality of different predefined states of the trip; identify, based at least in part on the current state of the trip, one or more computing devices associated with the passenger; generate, based at least in part on the current state of the trip, data describing one or more interfaces for display by the computing device(s) associated with the passenger; and communicate, to the computing device(s) associated with the passenger, the data describing the interface(s) for display.

A method is introduced to personalize a self-driving motor vehicle, which promises to provide an experience as if the self-driving motor vehicle is driven by the mind of a passenger the first time it operates on a freeway.

According to an embodiment of the present invention, there is provided a wheel speed sensor (WSS) signal-processing device according to ECU switching, the device comprising an ECU including a first ECU and a second ECU performing a control operation based on a detection signal received from the WSS, wherein the first ECU identifies control information based on the detection signal and transmits the control information to the second ECU, and wherein the second ECU identifies an event in which an operating state of the first ECU is switched from an active state to an inactive state, and performs the control operation according to the control information in a section in which an operating state of the second ECU is switched from the inactive state to the active state according to the event.

A control method is provided for controlling a lateral position of a motor vehicle. The control method includes calculating a sighting distance of a detector means embedded in the vehicle, calculating a first component of a steering angle setpoint of a steered wheels of the vehicle, and calculating a second component of the steering angle setpoint. The first component is an open loop component of a control system, while the second component is a closed loop component of the control system. The first component is weighted by a gain that is a decreasing function of the sighting distance.

A control system for a vehicle may include a plurality of vehicle subsystems associated with respective different dynamic vehicle control functions and a plurality of subsystem controllers associated with respective ones of the vehicle subsystems. The subsystem controllers may be configured to control actuators associated with the respective different dynamic vehicle control functions to change an operational state of components of the vehicle subsystems based on respective configuration settings. The system further includes an attribute configuration module operably coupled to the subsystem controllers. The attribute configuration module may include processing circuitry configured to save current configuration settings as a saved configuration responsive to a first actuation of a configuration mode actuator and, after an on/off cycle of the vehicle, instruct the subsystem controllers to implement the saved configuration responsive to a second actuation of the configuration mode actuator.

The present application discloses a method, an apparatus and a device for determining a behavioral driving habit and controlling vehicle driving, which relates to an autonomous driving technology in the field of artificial intelligence. A specific implementation is to: acquire driving behavior-related data during a user's manual driving a first vehicle on a road and map data; and determine, according to the driving behavior-related data and the map data described above, an association relationship between driving parameters used during the user's manual driving the first vehicle; where the association relationship between the driving parameters represents a behavioral driving habit of the user. In this way, an autonomous driving strategy of a second vehicle may be updated according to the behavioral driving habit of the user, so that personalized autonomous driving requirements from different users are met.