A parking brake control arrangement for controlling operation of a parking brake of a vehicle, configured to: receive a first indication of whether or not a driver of the vehicle is present in a driver's seat of the vehicle; receive a second indication of whether or not the vehicle being in motion; receive a third indication of whether or not the vehicle is in a towing mode; and control, when the first indication indicates that the driver is absent from the driver's seat, the second indication indicates that the vehicle is in movement, and the third indication indicates that the vehicle is not in the towing mode, the parking brake of the vehicle from a disengaged state to an engaged state.

The disclosure relates to a method for securing a vehicle, preferably a commercial vehicle, in an emergency braking situation, wherein the vehicle has a vehicle bus system and a braking system, the method having the following steps: monitoring signals on the vehicle bus system; detecting an emergency brake signal provided by a driver assistance system on the vehicle bus system; ascertaining whether the vehicle is at a standstill; bringing a braking device of the braking system into a braking position if a standstill of the vehicle is ascertained. The disclosure also relates to a control unit for a vehicle, a computer program, a braking system for a vehicle, and a vehicle.

A one-side brake control system and method perform distribution of torques between front and rear wheels. The one-side brake control system includes a target steering angle input unit to which a target steering angle of a driver or a controller of an autonomous vehicle is input when a steering system fails, an integrated Electronic Control Unit (ECU) configured to calculate a target moment of the vehicle according to the target steering angle input through the target steering angle input unit and calculate brake torques of a one-side front wheel and a one-side rear wheel of the vehicle based on the target moment, and a braking ECU configured to control one or more braking actuators of the one-side front wheel and the one-side rear wheel of the vehicle according to the brake torque of the front wheel and the rear wheel transmitted from the integrated ECU to perform one-side brake.

Disclosed is a control apparatus for a stopped state holding apparatus which can be switched between a holding state for holding a vehicle in a stopped state and a cancelled state in which the holding state is cancelled. The control apparatus includes a detection section for detecting a manipulation state of an operation section manipulated by an operator to switch the stopped state holding apparatus to the holding state or the cancelled state, and a control section for controlling operation of the stopped state holding apparatus on the basis of the detected manipulation state. In the case where the detection section detects a particular manipulation state in which a manipulation of the operation section for switching the stopped state holding apparatus continues for a predetermined period of time or longer, the control section controls the operation of the stopped state holding apparatus irrespective of the particular manipulation state.

A method for a brake control of a vehicle is provided. This method includes: obtaining a collision type of a current vehicle after the current vehicle is collided; obtaining driving information of the current vehicle according to the collision type; determining whether the current vehicle is in a safe state according to the driving information; obtaining driving parameter information of the current vehicle, and determining a consciousness state of a driver according to the driving parameter information when the current vehicle is determined as being in the safe state; and controlling the current vehicle to perform a brake operation when the consciousness state is determined as the non-rational driving state. According to this method, a problem of disabling of the driver's beneficial subjective risk-avoidance operations can be avoided, the secondary collision can be effectively avoided, and the damage to the vehicle due to the collision is alleviated.

A motion manager includes one or more processors configured to: receive a stop holding request for keeping a vehicle in a stopped state as one of motion requests from application software; and output an instruction value for turning ON a hydraulic brake to the hydraulic brake on a condition that the stop holding request is received. The one or more processors are configured to continue outputting the instruction value to a parking brake regardless of a presence or absence of the stop holding request, when outputting an instruction value for turning ON a parking brake to the parking brake after starting outputting the instruction value and until switching of the parking brake to an ON state is completed.

A vehicular driving assist system includes a plurality of cameras and a plurality of sensors disposed at a vehicle. The plurality of sensors includes at least one selected from the group consisting of a plurality of radar sensors and a plurality of lidar sensors. Electronic circuitry of an electronic control unit includes an image processor for processing image data captured by the cameras and a processor for processing sensor data captured by the sensors. The system, while the vehicle is travelling in a forward direction and responsive to processing of image data captured by the cameras and sensor data captured by the sensors, is operable to determine presence of an object approaching a path of travel of the vehicle. The system, responsive to determining presence of the object approaching the path of travel of the vehicle, communicates an alert to a driver of the vehicle.

A driver assistance device includes an image analysis part that analyzes a captured image obtained by capturing a face of a driver of a vehicle, and an abnormality determination processing part that determines whether a state of the driver is in an abnormal state on the basis of an analysis result of the captured image, and performs an emergency driving stop process of causing the vehicle to perform automatic braking if the driver's state is determined to be in the abnormal state. The abnormality determination processing part does not perform the emergency driving stop process when the level of recognition of the face of the image analysis part is lower than the predetermined level.

A vehicle control device includes an information acquirer that acquires information on driving conditions of a vehicle at least containing a steering angle and a vehicle speed; a brake force setter that sets a brake force to each of a plurality of wheels provided in the vehicle based on the driving conditions of the vehicle; and a brake controller that performs brake control for each of the plurality of wheels using the brake force set by the brake force setter, wherein the brake force setter remains the first brake force for the first specific wheel during a turn-over operation while the turn-over operation is performed from the one side steering position through a neutral position to other side steering position.

A brake traction control system (BTCS) using a redundancy braking system includes a main braking force adjusting device configured to control a hydraulic brake of a vehicle, a sensor unit configured to detect a driving state of the vehicle, an electronic brake electrically operating and configured to generate braking force for at least one driving wheel, and an auxiliary braking force adjusting device configured to control the hydraulic brake and the electronic brake when a failure occurs in the main braking force adjusting device, wherein the auxiliary braking force adjusting device is configured to adjust the braking force of the electronic brake provided on at least one wheel on left and right sides of the vehicle based on a detected value of the sensor unit, wherein the auxiliary braking force adjusting device apply the longer pre-operation time of the electronic brake as a risk level increases, and wherein the risk level is determined based on a gradient ratio of a road on which the vehicle is travelling.