A control method for a hybrid vehicle is provided. The hybrid vehicle includes: a generator configured to charge a battery by using power of an engine; an electric motor configured to drive a driving wheel by electric power of the battery; and a particulate filter configured to collect particulate matter contained in exhaust gas from the engine. In the control method, the engine is driven to raise a temperature of the particulate filter when a first temperature rise condition is satisfied in which a first predetermined amount or more of the particulate matter is accumulated in the particulate filter and the temperature of the particulate filter is equal to or lower than a predetermined temperature. Drive of the engine is prohibited, when a predetermined first condition that a driver does not intend to drive the engine is satisfied.

An apparatus and a method for controlling the output of driver information to a driver of a vehicle, with the objective of entertaining the driver and/or the passengers of the vehicle and/or increasing the driver attentiveness of the driver. A database of points of interest or objects of general interest, a database of topographic information, a device for determining the whereabouts of the vehicle, and an evaluation device to which these information items are delivered, are provided. The evaluation device ascertains, from the current whereabouts of the vehicle and from the topographic information, which points of interest or objects of general interest are present in the driver's field of view, and outputs via an output device the driver information regarding the point of interest or the object of general interest which has been ascertained by the evaluation device to be located in the driver's field of view.

A parking assist system includes: a control device configured to control an autonomous parking operation to move a vehicle autonomously to a prescribed target parking position; and a vehicle state detecting device configured to detect a state of the vehicle. During control of the parking operation, when the control device determines that the state of the vehicle detected by the vehicle state detecting device is a prohibition state in which the parking operation should be prohibited, the control device executes a prohibition deceleration process to decelerate the vehicle so as to stop the vehicle. The control device is configured to set an upper limit on deceleration of the vehicle in the prohibition deceleration process to be larger than an upper limit on deceleration of the vehicle in a stop operation to stop the vehicle at the target parking position.

A vehicular automated parking system includes a plurality of cameras viewing exterior of the vehicle. While the vehicle is traveling along the road, the vehicular automated parking system operates in a parking space locating mode to determine available parking spaces at least in part via processing, at an electronic control unit having an image processor, of image data captured by at least one camera of the plurality of cameras. The vehicular automated parking system fuses the determined available parking spaces with map data to generate an annotated map for display at the video display screen for viewing by the driver of the vehicle to assist the driver in selecting a parking space from the determined available parking spaces. After selection of the parking space, the vehicular automated parking system parks the equipped vehicle in the selected parking space.

A vehicular parking system includes a plurality of exterior viewing cameras, at least one receiver and a control. The control, when the vehicle is located at an entrance of a parking structure, controls the vehicle to autonomously drive the vehicle from the entrance of the parking structure toward a parking location in the parking structure. The parking structure includes a positioning system having a plurality of short range communication devices at known locations at the parking structure. Responsive to communication signals generated by the devices, the control determines the location of the vehicle relative to the known locations and drives the vehicle from the entrance of the parking structure toward the parking location in the parking structure. With the vehicle positioned at the parking location, and responsive at least to image processing by the image processor of captured image data, the control parks the vehicle in the parking location.

A system for displaying information is intended to be incorporated in a motor vehicle including at least a dashboard, a central console, a display screen on the central façade and a front windscreen. The display system includes a manual or automatic selection device for selecting among at least three display modes each containing information, being progressively off-centre with respect to the vehicle.

A vehicle includes an automated driving assistance system that controls maneuvering of the vehicle under certain conditions. When the vehicle comes to a stop, the driving assistance system dynamically selects a threshold stop time corresponding to a duration of time that the vehicle can remain stopped before the driving assistance system will either detect a physical action from the user to resume automated driving assistance or time out and cease the driving assistance.

An automated lane change system for a motor vehicle includes one or more environmental sensors for generating an input signal indicative of a position of an object relative to the motor vehicle, with the object being disposed at a distance from the motor vehicle. The input signal is further indicative of a velocity of the object relative to the motor vehicle. The system further includes a steering wheel sensor generating a gripped signal, in response to a driver gripping a steering wheel. A controller generates an activation signal, in response to the controller receiving the input signal from the environmental sensor and the gripped signal from the steering wheel sensor. An actuator controls the steering wheel, a propulsion mechanism, and a braking mechanism for maneuvering the motor vehicle from a current driving lane to a target driving lane, in response to the actuator receiving the activation signal from the controller.

A motor controller for controlling a motor that is driven with electric power from a battery includes an atmospheric pressure sensor, and a coil temperature sensor. The motor controller is configured to determine an upper limit state of charge of the battery, and lower the upper limit state of charge of the battery in response to the atmospheric pressure being a predetermined pressure or lower or in response to the coil temperature being a predetermined temperature or higher.

Systems, methods, and other embodiments described herein relate to guiding a vehicle along a path. In one embodiment, a method includes generating a virtual environment that includes a virtual version of the path and a marker indicating a demarcation along the path. The method includes generating a virtual rendition of the vehicle in the virtual environment. The virtual rendition of the vehicle including a virtual version of the vehicle and one or more guard rails that are spaced from the perimeter of the virtual version of the vehicle. The method includes predicting whether the virtual rendition of the vehicle will intersect with the marker, and determining an act to assist in preventing the virtual rendition of the vehicle from intersecting with the marker.