A vehicle regenerative speed control device is provided for suppressing undershooting, in which an actual transmission input rotational speed falls below a lower-limit rotational speed, when decreasing a transmission input rotational speed based on a request for a decrease in the regeneration amount during regenerative speed control. The vehicle regenerative speed control device includes a controller which performs a regenerative speed control for downshifting a continuously variable transmission to a low gear ratio side and increasing a rotational speed of a transmission input shaft to which a motor generator is connected when there is a request for an increase in the regeneration amount while decelerating.

A vehicle regenerative speed control device is provided that includes a controller which performs a regenerative speed control for downshifting a belt-type continuously variable transmission to the low gear ratio side and increasing a rotational speed of a transmission input shaft to which a motor generator is connected when there is a request for an increase in the regeneration amount while decelerating. The controller also imposes the limitation of staying within a Pri end command rotational speed change rate for the Pri end command rotational speed when performing a regenerative speed control for increasing the Pri end command rotational speed based on a braking operation in a brake switching region for switching from regenerative braking to hydraulic braking due to a decrease in vehicle speed.

A regenerative braking control apparatus includes an interface unit configured to receive driving information of a vehicle; an object detection device configured to generate object information based on detecting an object outside the vehicle; and at least one processor. The at least one processor is configured to: determine whether to perform regenerative braking for the vehicle, based on the driving information and the object information; and provide at least one signal corresponding to a result of determining whether to perform the regenerative braking for the vehicle.

The present disclosure discloses a vehicle and a braking feedback control method for the same. The braking feedback control method includes the following steps: detecting a current speed of a vehicle and a depth of a braking pedal of the vehicle; when the current speed of the vehicle is greater than a preset speed, the depth of the braking pedal is greater than 0, and an anti-lock braking system of the vehicle is in a non-working state, controlling the vehicle to enter a braking feedback control mode, where when the vehicle is in the braking feedback control mode, a required braking torque corresponding to the vehicle is obtained according to the depth of the braking pedal, and a braking torque of a first motor generator, a braking torque of a second motor generator, and a braking torque of basic braking performed on the vehicle are distributed according to the required braking torque.

A control method of a hybrid vehicle capable of increasing regenerative braking efficiency by controlling an operating point of an electric motor includes steps of determining, by a hybrid control unit (HCU), a first torque for an generation mode operation of an electric motor, determining, by the HCU, whether the first torque and a speed of the electric motor correspond to an operating point for achieving charge of a battery through the generation mode operation, and, upon determining that the first torque and the speed of the electric motor correspond to an operating point at which the charge of the battery is disabled, changing, by the HCU, the first torque into a second torque that corresponds to an operating point at which the charge of the battery is achieved.

A MG-ECU includes, as a regeneration limiting value, a limited value set according to a state of a battery, and an unlimited value enabling generation of braking force greater than the limited value. In a state in which regenerative braking is being limited, the MG-ECU causes frictional braking force to be generated based on a difference between the unlimited value and the drive force demand of a driver. In cases in which the frictional braking force is also limited in a state of the regenerative braking, the MG-ECU switches the regeneration limiting value from the limited value to the unlimited value, and requests a motor-generator to generate regenerative braking based on the limited value.

A vehicle electronic stability control system which allows a vehicle to have improved movement performance and limit performance without causing a driver to feel uncomfortable, by actuating electronic stability control from a state where a lateral slip is relatively less likely to occur. The system prevents a skid of a vehicle. The system is provided with a stability determination module that obtains information indicating vehicle behavior from a sensor, and determines whether the vehicle is in an unstable or less stable state, on the basis of the information. The system is further provided with a braking/driving force control module which, when the stability determination module determines that the vehicle is in the unstable or less stable state, applies a braking force to one of the drive wheels, and simultaneously applies a driving force to the motor for the other drive wheel.

In a method for automatically adjusting the vehicle speed of a vehicle, while the distance to a preceding other vehicle is continuously measured, in order to reduce an initial distance, the vehicle is initially moved, in a drive phase, at a higher vehicle speed and is subsequently decelerated in a braking phase.

A vehicle regenerative braking control device is provided for a vehicle, which comprises wheels and a motor that brakes and drives the wheels. In this way, the vehicle travels by the motor driving the wheels, and brakes by applying a braking force to the wheels with a regenerative braking force of the motor. The vehicle regenerative braking control device comprises a vehicle controller configured to control the motor such that the regenerative braking force is to be decreased at a steady rate during a predetermined time before a state-of-charge of a battery used as a power source of the motor decreases to a level at which the regenerative braking force can no longer be generated as predetermined.

A vehicle includes a powertrain and at least one controller programmed to, in response to a brake request and a shaft speed associated with a speed of the vehicle achieving a starting speed that is defined by a torque of the powertrain that changes with brake demand at a given shaft speed, reduce a regenerative torque limit that constrains regenerative braking torque over a blend-out duration based on the shaft speed.