The present disclosure is directed to apparatus, methods, and non-transitory storage medium for controlling the maximum speed of a vehicle as that vehicle travels along a route. Apparatus and methods consistent with the present disclosure may receive location information from an electronic device that is located at a vehicle and may provide information to the electronic device at that controls the maximum speed of the vehicle as speed limits change along the route.

A travel control method includes using the vehicle to autonomously control a travel of the vehicle. The vehicle has an autonomous speed control function for autonomously controlling a traveling speed of the vehicle and an autonomous steering control function for autonomously controlling the steering of the vehicle. The autonomous speed control function includes a curved route speed control function for controlling the traveling speed of the vehicle at a set speed corresponding to the size of a curve of a travel route. The curved route speed control function can be set to ON/OFF. Each of the autonomous speed control function and the autonomous steering control function can be set to ON/OFF. When the autonomous speed control function and the autonomous steering control function are set to ON, the curved route speed control function is operated regardless of whether the curved route speed control function is set to ON or OFF.

A smart governor system that intercepts and adjusts throttle commands when certain criteria are met based on vehicle operations and a user-selected transmission mode. The governor, when engaged, reduces a throttle command in order limit engine and/or ground speed.

During a period from when an automated driving vehicle starts pulling over to a sidewalk side until the vehicle pulls over completely thereto, an operation control section causes the vehicle to immediately stop when an object that can be an obstacle exists in at least one of a middle front area, a sidewalk-side front area, and a sidewalk-side side area that are areas each within a predetermined distance at a middle front, at a sidewalk-side front, and on a sidewalk-side side of the vehicle, respectively. During the period, the operation control section does not cause the vehicle to stop when the object does not exist in any of the middle front area, the sidewalk-side front area, and the sidewalk-side side area, even when the object exists in an area surrounding the vehicle other than the middle front area, the sidewalk-side front area, and the sidewalk-side side area.

A driving control device controls traveling of an automatic driving vehicle. The driving control device includes a control unit, and as driving modes, the control unit has at least two driving modes including an automatic driving mode of performing an automatic control of the traveling of the vehicle and a manual driving mode of controlling the traveling of the vehicle in response to an operation by an operator that rides on the vehicle. The control unit sets an upper limit vehicle speed in the manual driving mode to a vehicle speed lower than an upper limit vehicle speed in the automatic driving mode, when the driving mode switches from the automatic driving mode to the manual driving mode.

A driver assistance system in a motor vehicle takes into consideration a target speed, in particular in order to regulate the speed at a specified target speed, and includes a detection system for detecting upcoming events which require an adaptation of the target speed; a functional unit which triggers a request notification output to approve an automatic adaptation of the target speed to a new target speed at a defined point in time when an upcoming event is detected that requires an adaptation of the target speed; a notification system for outputting the request notification to the driver after the defined point in time; and an operating element which is designed to allow a clearance to approve the automatic adaptation to the new target speed when the request notification has been output and the operating element has been actuated. In response to the clearance, the functional unit automatically triggers the adaptation of the target speed to the new target speed. The operating element is additionally designed to request a manual target speed influence which differs from the automatic target speed adaptation approval at a point in time when no request notifications to approve an automatic adaptation of the target speed have been triggered.

A cruise control method to control a driven vehicle includes: determining projected speeds of the driven vehicle at each of the predetermined-upcoming locations; determining a plurality of following times at each of the predetermined-upcoming locations of the driven vehicle and the projected speeds of the followed vehicle; determining whether at least one of the plurality of following times is less than the predetermined-minimum time threshold; and in response to determining that at least one plurality of following times is less than the predetermined-minimum time threshold, commanding, by the controller, the propulsion system of the driven vehicle to decrease the commanded axle torque by a torque adjustment in order to prevent each of the plurality of following times at each of the predetermined-upcoming locations from being less than the predetermined-minimum time threshold.

An imaging section 20 images a passenger in a moving body. A boarding state detection section 30 detects a boarding state of the passenger on the basis of a captured image acquired by the imaging section 20. An allowable acceleration setting section 40 sets, for each passenger, individual allowable acceleration on the basis of the boarding state of the passenger detected by the boarding state detection section 30, for example, the lateral spacing between the feet of the passenger, the arrangement angle of the feet with respect to the moving direction of the moving body, and the like. Further, integration is performed on the individual allowable acceleration determined for the respective passengers in the moving body, and the acceleration that is allowable for the moving body is set. The allowable acceleration for the moving body is set according to the boarding state of each passenger, thus preventing the moving body from moving at acceleration at which the passengers may be endangered. This allows the safety of the passengers to be improved.

A system, vehicle, method and non-transitory computer readable storage medium for improving driving safety are provided. The system includes: a steering wheel; a paddle attached to the steering wheel; a pressure sensor, which is installed between the paddle and a contact point of the paddle to the steering wheel and is coupled to a control component, wherein the pressure sensor is configured to sense a pressure exerted on the pressure sensor by the paddle and send the sensed pressure to the control component; and the control component, which is configured to, in responsive to receiving the sensed pressure, determine a level of deceleration corresponding to the sensed pressure and send a deceleration command which instructs to decelerate, based on the determined level of deceleration, a vehicle on which the system for improving the driving safety is installed.

A vehicle driving assistance system performs traveling assistance control under which an own vehicle automatically travels with. The traveling assistance control includes first constant-speed control for automatically controlling the acceleration of the own vehicle, based on a first vehicle-speed range including a set vehicle speed, such that the vehicle speed of the own vehicle is kept equal to the set vehicle speed, and second constant-speed control for automatically controlling the acceleration of the own vehicle, based on a second vehicle-speed range including the set vehicle speed, such that the vehicle speed of the own vehicle is kept equal to the set vehicle speed. The second vehicle-speed range is set to a wider range than the first vehicle-speed range. The vehicle driving assistance system switches the traveling assistance control between the first constant-speed control and the second constant-speed control, according to the traveling state of the own vehicle.