In some implementations, the system may include a plurality of wheel speed sensors, each of the plurality of wheel speed sensors being configured to monitor the speed of a respective wheel of a vehicle. In addition, the system may include a central electronic control unit. The system may include a plurality of controlling devices, each of the plurality of controlling devices being communicatively coupled to at least one wheel speed sensor of the plurality of wheel speed sensors. Moreover, the system may include a central electronic control unit communicatively coupled to each of the plurality of controlling devices via a network connection and configured to process data received from each of the controlling devices.

In some implementations, the system may include a plurality of wheel speed sensors, each of the plurality of wheel speed sensors being configured to monitor the speed of a respective wheel of a vehicle. In addition, the system may include a central electronic control unit. The system may include a plurality of controlling devices, each of the plurality of controlling devices being communicatively coupled to at least one wheel speed sensor of the plurality of wheel speed sensors. Moreover, the system may include a central electronic control unit communicatively coupled to each of the plurality of controlling devices via a network connection and configured to process data received from each of the controlling devices.

An automatic brake control apparatus for a vehicle is configured to control a brake device of the vehicle in a control of a driving assist system of the vehicle. The automatic brake control apparatus includes electronic control units. The electronic control units include a first electronic control unit and are communicably coupled to each other and configured to exchange data with each other. The first electronic control unit is configured to control the driving assist system. The first electronic control unit is configured to send, to one or more of the electronic control units, an instruction that controls the brake device and that includes a first instruction for controlling a behavior of the vehicle and a second instruction that has an instruction content different from an instruction content of the first instruction.

An automatic brake control apparatus for a vehicle is configured to control a brake device of the vehicle in a control of a driving assist system of the vehicle. The automatic brake control apparatus includes electronic control units. The electronic control units include a first electronic control unit and are communicably coupled to each other and configured to exchange data with each other. The first electronic control unit is configured to control the driving assist system. The first electronic control unit is configured to send, to one or more of the electronic control units, an instruction that controls the brake device and that includes a first instruction for controlling a behavior of the vehicle and a second instruction that has an instruction content different from an instruction content of the first instruction.

Systems and Methods for controlling an autonomous vehicle, may include: receiving sensor data, the sensor data comprising vehicle parameter information for the autonomous vehicle; using the sensor data to determine a vehicle state for the autonomous vehicle, wherein the vehicle state comprises information regarding a magnitude of an actual or predicted effective understeer gradient for the vehicle; computing a yaw moment required to correct the effective understeer gradient based on the magnitude of the effective understeer gradient; and determining a combination of one or more vehicle control inputs, including applying a brake torque, to correct the effective understeer gradient; applying the brake torque to a single wheel of the vehicle, wherein an amount of brake torque applied is sufficient to lock up the single wheel to create a yaw moment on the vehicle to achieve the computed yaw moment required to correct the effective understeer gradient.

Systems and Methods for controlling an autonomous vehicle, may include: receiving sensor data, the sensor data comprising vehicle parameter information for the autonomous vehicle; using the sensor data to determine a vehicle state for the autonomous vehicle, wherein the vehicle state comprises information regarding a magnitude of an actual or predicted effective understeer gradient for the vehicle; computing a yaw moment required to correct the effective understeer gradient based on the magnitude of the effective understeer gradient; and determining a combination of one or more vehicle control inputs, including applying a brake torque, to correct the effective understeer gradient; applying the brake torque to a single wheel of the vehicle, wherein an amount of brake torque applied is sufficient to lock up the single wheel to create a yaw moment on the vehicle to achieve the computed yaw moment required to correct the effective understeer gradient.

Systems and methods for controlling a vehicle may include receiving sensor data from a plurality of sensors, the sensor data including vehicle parameter information for the vehicle; using the sensor data to determine a vehicle state for a vehicle negotiating a corner, wherein the vehicle state comprises information regarding a magnitude of an effective understeer gradient for the vehicle; computing a yaw moment required to correct the effective understeer gradient based on the magnitude of the effective understeer gradient; and applying a brake torque to a single wheel of the vehicle, wherein an amount of brake torque applied is sufficient to lock up the single wheel to create a yaw moment on the vehicle to achieve the computed yaw moment required to correct the effective understeer gradient.

Systems and methods for controlling a vehicle may include receiving sensor data from a plurality of sensors, the sensor data including vehicle parameter information for the vehicle; using the sensor data to determine a vehicle state for a vehicle negotiating a corner, wherein the vehicle state comprises information regarding a magnitude of an effective understeer gradient for the vehicle; computing a yaw moment required to correct the effective understeer gradient based on the magnitude of the effective understeer gradient; and applying a brake torque to a single wheel of the vehicle, wherein an amount of brake torque applied is sufficient to lock up the single wheel to create a yaw moment on the vehicle to achieve the computed yaw moment required to correct the effective understeer gradient.

A vehicle control device includes a travel environment recognition device configured to recognize travel environment, a vehicle travel state detection device, and an autonomous/manual driving mode controller. The autonomous/manual driving mode controller includes a learning correction unit configured to store at least one of a plurality of control parameters indicating the vehicle travel state by operation of the driver in the autonomous driving mode, and to correct the control parameter in the autonomous driving mode according to the stored control parameter. When the stored control parameter is the control parameter changed by an operation by the driver midway in passing or after passing, the learning correction unit is configured to correct the control parameter in the autonomous driving mode so that an acceleration level or the deceleration level is increased midway in passing or after passing.

A vehicle control device includes a travel environment recognition device configured to recognize travel environment, a vehicle travel state detection device, and an autonomous/manual driving mode controller. The autonomous/manual driving mode controller includes a learning correction unit configured to store at least one of a plurality of control parameters indicating the vehicle travel state by operation of the driver in the autonomous driving mode, and to correct the control parameter in the autonomous driving mode according to the stored control parameter. When the stored control parameter is the control parameter changed by an operation by the driver midway in passing or after passing, the learning correction unit is configured to correct the control parameter in the autonomous driving mode so that an acceleration level or the deceleration level is increased midway in passing or after passing.