A vehicle parking brake control includes a parking switch for switching the parking brake between ON and OFF, a vehicle power source switch for switching a power source of the vehicle between ON and OFF, a parking brake controller for executing automatic application control when the power source is operated from ON to OFF by the occupant with use of the vehicle power source switch, and a prohibition condition determination unit for determining that when the parking brake is OFF, the vehicle is stopped, and the vehicle power source is ON, a prohibition condition for prohibiting automatically turning the parking brake on is satisfied when a turning-off operation for the vehicle power source switch is executed after a turning-off operation for the parking switch is executed. When a determination is made that the prohibition condition is satisfied, the parking brake controller does not execute the automatic application control.

The present document relates to a driveline for a vehicle, the driveline comprising a hydrodynamic retarder, a first driveline component such as a transmission input, and a controller configured to activate the hydrodynamic retarder at a point in time which is determined based on a rotational acceleration of the first driveline component. The present document further relates to a method of controlling a hydrodynamic retarder.

When a brake is turned on during travel of a hybrid vehicle, a required braking force required for a drive shaft is set based on a brake depression amount, a base rotation speed of an engine is set based on the required braking force, a shift stage is set based on the base rotation speed and a vehicle speed, a target rotation speed of the engine is set based on the shift stage and the vehicle speed, and the engine, the first motor, and the second motor are controlled such that the engine operates at the target rotation speed and the required braking force acts on the drive shaft.

A vehicle includes a trailer hitch, an axle having an electronic limited slip differential, and a controller. The electronic limited slip differential includes a variable torque capacity lockup clutch. The controller is programmed to, in response to detecting the presence of a trailer connected to the trailer hitch and an increase in vehicle speed, increase the lockup clutch torque by a first torque adjustment.

The invention relates to a dynamic signaling system of the evolution of the braking maneuver that has visual proportionality with respect to the loss of speed of the vehicle, with fixed or programmed response sensitivity of the system in each braking maneuver, which enables visual proportionality and dynamic unambiguous representation of the variation of speed of the vehicle during braking. It can be applied with advantages to any type of vehicle, with an electric or hybrid combustion engine, with manual or automatic transmission. The system can be applied to both brake lights and the third brake light (high-mount brake light) indistinctly or jointly, further reinforcing the dynamic effect of attention and the transmission of information.

A vehicle control system configured to control a braking operation of a hitch ball to a coupler on a trailer. The system may comprise a vehicle brake control system, a maneuvering system, an image sensor configured to capture an image data, and a velocity sensor. The system may also comprise a vehicle mass sensor configured to detect a vehicle mass and a controller. The controller may be configured to control the maneuvering system of the vehicle along a vehicle path. The controller may also identify a coupler distance based on the image data depicting a coupler of the trailer. The controller may also calculate a stopping distance for the braking operation based on a plurality of braking parameters, wherein the braking parameters comprise the velocity, the brake pressure, and the vehicle mass.

Provided is a gear change control device of automatic transmission for vehicles. The gear change control device of automatic transmission includes a gear change control part which performs upshift gear change control and downshift gear change control of an automatic transmission according to a shift map. When an operation of a brake operation element is detected and full closure of an accelerator is detected, the gear change control part calculates, based on a change amount of a vehicle speed and a pressure of a brake master cylinder, a determination counter value for determining whether or not to execute the downshift of the automatic transmission, and when the determination counter value is equal to or greater than a threshold value (first threshold value), the gear change control part performs the downshift of the automatic transmission.

Disclosed are a control method for a hydraulic retarder, and a control system. The method includes: acquiring a slope of a downhill road segment ahead of a vehicle; determining whether an absolute value of the slope is greater than an absolute value of a slope for which a braking force is not required; if so, predicting a required braking force and oil amount for the vehicle at a steady speed; predicting, according to the oil amount, oil filling time and a distance between the vehicle and an origin of the above road segment at the start time of oil filling of the hydraulic retarder; in the case that the actual distance of the vehicle is equal to a predicted distance, starting oil filling; and upon the vehicle reaching the origin of the road segment, starting braking. The present disclosure can lower wear of brake pads and reduce vehicle running costs.

Methods and system are provided for generating regenerative braking torque at a front axle and a rear axle of a vehicle. In one example, the regenerative braking torque may be a function of a normal load applied to the front axle and a normal load applied to the rear axle.

Provided is a gear change control device of automatic transmission for vehicles. The gear change control device of automatic transmission includes a gear change control part which performs upshift gear change control and downshift gear change control of an automatic transmission according to a shift map. When an operation of a brake operation element is detected and full closure of an accelerator is detected, the gear change control part calculates, based on a change amount of a vehicle speed and a pressure of a brake master cylinder, a determination counter value for determining whether or not to execute the downshift of the automatic transmission, and when the determination counter value is equal to or greater than a threshold value (first threshold value), the gear change control part performs the downshift of the automatic transmission.