A method for operating a driver assistance system of a vehicle, in which interventions activated by the driver assistance system in a travel mode of the vehicle are at least partially suspended for a predetermined time window when an override intent of a driver of the vehicle is recognized.

Aspects of the disclosure relate to controlling a transition between a manual driving mode and an autonomous driving mode of a vehicle. For instance, one or more processors of one or more control computing devices may control the vehicle in the autonomous driving mode. While controlling the vehicle in the autonomous driving mode and decelerating at a given rate, the processors may receive at a user input of the vehicle input requesting a transition from the autonomous driving mode to the manual driving mode. In response to the input, the processors may transition the vehicle to the manual driving mode. After transitioning the vehicle to the manual driving mode, the processors may send deceleration signals to a deceleration actuator thereby causing the vehicle to continue to decelerate at the given rate.

A driving assistance apparatus configured to support a driving of a vehicle at a time of pulling out of the vehicle, the driving assistance apparatus including: a control section configured to determine a movement path from a parking space to a predetermined position of a road region, and run the vehicle along the movement path on a basis of surroundings information of the vehicle when pulling out the vehicle from the parking space to the road region, wherein the control section leaves an accelerator operation for the vehicle to a user while automatically controlling a steering operation for the vehicle at least in a section in the movement path, and switches from an automated driving mode to a manual driving mode in response to the steering operation that is performed by the user when the vehicle travels in the section.

Systems and techniques are disclosed for switching a vehicle driving mode. A sensing unit senses a state of a driver of a vehicle configured to be driven automatically or manually. An intention detecting unit detects whether the driver intends to switch from an automatic driving mode to a manual driving mode based on the state of the driver. An operation detecting unit detects whether the driver is able to operate the vehicle in the manual driving mode based on the state of the driver. A driving state predicting unit predicts a driving state of the vehicle in the manual driving mode based on detecting that the driver is able to operate the vehicle in the manual driving mode. A control unit determines that the predicted driving state of the vehicle meets a preset condition and switches from the automatic to the manual driving mode.

An apparatus for providing a notification of control authority transition in a vehicle is provided. The apparatus includes a speaker configured to output a sound notification, a vibration motor configured to output a vibration notification, and a control circuit configured to be electrically connected with the speaker and the vibration motor. The control circuit is configured to output a first notification using the speaker during a first time interval, when a situation to transfer control authority for the vehicle occurs, output a second notification using the speaker and the vibration motor during a second time interval, after the first time interval elapses, and output a third notification using the speaker and the vibration motor during a third time interval, after the second time interval elapses.

A drive mode switch control device acquires operation information. The drive mode switch control device switches a drive state among at least an autonomous drive state, a manual drive state, and a coordination drive state. The operation detection unit detects a first operation and a second operation based on the operation information when the drive state is not in the manual drive state. The second operation is the drive operation different from the first operation and input after the input of the first operation. The drive mode switch control device switches the drive state from the autonomous drive state to the coordination drive state based on a detection determination of the first operation. The drive mode switch control device switches the drive state from the coordination drive state to the manual drive state based on a detection determination of the first operation.

A vehicle control device performs driving mode switching processing from an automated driving mode to a manual driving mode according to the intention of a vehicle occupant of a vehicle. A vehicle control device includes: a switching controller that is configured to switch a driving mode of a vehicle from an automated driving mode to a manual driving mode based on a predetermined manipulated variable of a steering wheel; and a steering reaction force setting unit that is configured to set, according to how a vehicle occupant grips the steering wheel, a steering reaction force applied when the vehicle occupant steers the steering wheel in the automated driving mode.

A control method for a driving assistance apparatus of a vehicle, the driving assistance apparatus coupled with a sensor monitoring an ambient area of the vehicle, the control method including generating a travel path from a parking space to a road region using input from the sensor, traveling the vehicle part of the travel path using a second input from the sensor in a first autonomous traveling mode, traveling the vehicle another part of the travel path using a third input from the sensor in a second autonomous traveling mode, and switching from the second autonomous driving mode to a manual driving mode in response to a steering operation of the vehicle being performed by the user while the vehicle is travelling the second part of the travel path in the second autonomous mode.

According to one aspect, systems and techniques for adaptive trust calibration may include usage of a driving style predictor, including a memory and a processor. The memory may store one or more instructions and the processor may execute one or more of the instructions stored on the memory to perform one or more acts, actions, or steps, such as receiving a current automated vehicle (AV) driving style, receiving an indication of an event and an associated event type, receiving an indication of a driver takeover, concatenating the current AV driving style and one or more of the event type or the driver takeover to generate an input, and passing the input through a neural network, which may include a gated recurrent unit (GRU), to generate a preference change associated with the AV driving style.

A method of controlling vehicle driving, when a plurality of occupants is in the vehicle, by implementing components required for vehicle driving control as holographic images to ensure a maximum space in an autonomous vehicle, may include steps of requesting, by a first occupant currently having no driving control authority, a transfer of the authority by use of a holographic image, accepting, by a second occupant currently having the driving control authority, the transfer of the authority by use of the holographic image, selecting, by the first occupant, a mode by use of the holographic image based on the acceptance by the second occupant, and performing vehicle control in accordance with the mode selected by the first occupant, and the holographic images in the respective steps are displayed to the occupants wearing an HMD device.