An intelligent driving method comprising: obtaining feature parameters of a vehicle at a current moment and a road attribute of a driving scenario of the vehicle in a preset future time period; comparing the feature parameters at the current moment with feature parameters of a standard scenario in a scenario feature library; comparing the road attribute of the driving scenario of the vehicle in the preset future time period with a road attribute of the standard scenario in the scenario feature library; determining a total similarity of each scenario class to a driving scenario of the vehicle at the current moment based on comparing results; determining, as the driving scenario at the current moment, a first scenario class with a highest total similarity in N scenario classes; and controlling, based on the determining result, the vehicle to perform intelligent driving.

An onboard display device is installed in a vehicle configured to enable autonomous driving. The onboard display device includes an information acquisition section and a display control section. In a case in which the vehicle attempts to merge from a traveling lane into a merging destination lane during autonomous driving, the information acquisition section acquires information regarding a point at which the attempt will be aborted, before the vehicle arrives at the point. The display control section displays the information regarding the point that is acquired by the information acquisition section, before the arrival at the point. at a display portion that is provided within a vehicle cabin of the vehicle.

An intelligent driving method comprising: obtaining feature parameters of a vehicle at a current moment and a road attribute of a driving scenario of the vehicle in a preset future time period; comparing the feature parameters at the current moment with feature parameters of a standard scenario in a scenario feature library; comparing the road attribute of the driving scenario of the vehicle in the preset future time period with a road attribute of the standard scenario in the scenario feature library; determining a total similarity of each scenario class to a driving scenario of the vehicle at the current moment based on comparing results; determining, as the driving scenario at the current moment, a first scenario class with a highest total similarity in N scenario classes; and controlling, based on the determining result, the vehicle to perform intelligent driving.

An automatic driving vehicle has an automatic mode to automatically operate along a predetermined travel route in accordance with an operation schedule provided from an operation management center through communication and so as to arrive at a predetermined spot at predetermined time. In a case where the communication is normal, the automatic driving vehicle operates automatically in accordance with the operation schedule provided in the automatic mode through the communication, and in a case where abnormality occurs in the communication, the automatic mode shifts to a semiautomatic mode to operate the automatic driving vehicle in a state where a function of communicating with the operation management center is limited.

An electronic control unit for a vehicle for switching vehicle control from an autonomous driving mode includes one or more processors, network interface hardware configured to communicate with a remote server over a network, and one or more memory modules that store logic. The electronic control unit executes logic to determine that the autonomous driving mode of the vehicle will terminate, determine that a driver is unavailable to take immediate control of the vehicle upon termination of the autonomous driving, transfer control of the vehicle to a remote operator over the network interface hardware for a first time period, generate an alert to the driver to take manual control of the vehicle, and transfer control of the vehicle to one of the driver and the autonomous driving mode after the first time period has elapsed.

A vehicular control system for controlling a vehicle includes a vehicle control, an acceleration sensor and a camera. The vehicle control includes an image processor for processing image data captured by the camera as the vehicle is driven along a route by a driver of the vehicle. The vehicle control detects traffic and road topography and determines acceleration of the vehicle as the vehicle is driven along the route by the driver. The vehicle control learns the route during multiple repetitive drives of the route by the driver of the vehicle. The vehicle control increases a confidence level of the learned route during multiple repetitive drives of the route by the vehicle. When the confidence level exceeds a threshold value, the vehicle control is operable to at least semi-autonomously control the vehicle to drive the vehicle along the route.

In a vehicle control system (1) configured for autonomous driving, a control unit (15) invokes an autonomous stopping mode when an intervention detection unit (10, 11, 13, 33) has failed to detect an acceptance of a driving intervention request by the driver when the driving intervention request is notified by a notification interface (31, 32), and the control unit restricts a functionality of the autonomous driving after the autonomous stopping mode has been invoked due to a driver's failure.

A driving control system includes an automatic driving control device and a driver monitoring device. The automatic driving control device includes a driver state determining unit, an override detector, a retreat mode controller, and a retreat mode canceler. During traveling under an automatic driving mode, when the driver state determining unit determines from a driver state detected by the driver monitoring device that the driver is not in a state capable of driving normally, the retreat mode controller sets a retreat mode in which an override operation is disabled and an own vehicle is caused to travel for retreat. When the driver state determining unit determines, during traveling for retreat, that the driver has returned to the state capable of driving normally, the retreat mode canceler cancels the retreat mode, and enables detection of the override operation of the driver by the override detector.

It is an object of the present invention to switch driving modes smoothly and ensure that a passenger understands driving operations controlled in the relevant driving mode and necessary driving operations. An autonomous driving control apparatus capable of switching between a manual driving mode which requires driving operation by a passenger of a vehicle, and an autonomous control mode which does not require the driving operation by the passenger of the vehicle is provided, wherein the autonomous driving control apparatus includes: an autonomous driving control unit that controls the vehicle in the autonomous control mode; and an information notification unit that gives notice to the passenger of the vehicle, wherein when the driving operation by the passenger is required after switching from the autonomous control mode to the manual driving mode, the autonomous driving control unit performs first notice control to cause the information notification unit to give notice that the driving operation by the passenger is required.

A vehicle control device includes: a driving controller configured to perform first driving control such that one or both of an acceleration or deceleration speed and steering of a vehicle is controlled to travel the vehicle; an occupant intention detector configured to detect an intention of the occupant to switch from manual driving to a state in which the driving controller performs the first driving control; and a one-way traffic determiner configured to determine whether a road on which the vehicle is predicted to be traveling or travel in future is a one-way traffic road. The driving controller determines whether to start the first driving control based on whether the one-way traffic determiner determines the road on which the vehicle is predicted to be traveling or travel in future is the one-way traffic road.