A control unit is provided for a vehicle having an internal combustion engine with a shaft, which can be coupled to an electric machine or decoupled from the electric machine. The control unit is designed to couple the electric machine to the internal combustion engine during an engine stop of the internal combustion engine. The control unit causes the electric machine to guide the shaft of the internal combustion engine. The control unit determines that a speed of the guided shaft is equal to or less than a speed threshold value and, in response thereto, decouples the electric machine from the internal combustion engine, such that the internal combustion engine stops without being guided by the electric machine.

A vehicle control device includes a controller configured to perform: ignition starting of an engine when a detected crank angle is within a first area in which the ignition starting of the engine may be performed with probability not smaller than a first predetermined value; and the ignition starting of the engine while increasing an engine speed by engaging a clutch to transmit torque of a drive wheel to a crankshaft when the crank angle is within a second area in which the ignition starting of the engine may be performed with probability not smaller than a second predetermined value smaller than the first predetermined value and smaller than the first predetermined value, the instruction is output based on a signal indicating that a braking unit is turned on, and a gear of a transmission is not in neutral.

A controller for a hybrid vehicle restarts an engine in a start mode selected from multiple start modes. The multiple start modes include a first start mode of starting combustion in the engine when a clutch starts transmitting torque and a second start mode of starting combustion in the engine after the clutch starts transmitting torque. The controller is configured to, in a case in which the engine is restarted in the second start mode, measure a cranking start time from when engagement of the clutch is commanded to when transmission of the torque through the clutch is started, and only when measurement of the cranking start time has been completed after the vehicle is activated, restart the engine in the first start mode.

A control device for a hybrid vehicle that includes an internal combustion engine, a motor, and a clutch provided between the internal combustion engine and the motor includes a first start control unit that starts the internal combustion engine without causing the motor to perform cranking, and a second start control unit that starts the internal combustion engine by causing the motor to perform cranking. After the first start control unit performs start control of the internal combustion engine, the second start control unit starts the internal combustion engine when a crank shall of the internal combustion engine stops for a predetermined time or longer or the crank shaft rotates in an opposite direction to the direction of the cranking.

Disclosed is an artificial intelligence apparatus for controlling an auto stop function. The artificial intelligence apparatus includes an input unit configured to receive at least one of image information on surroundings of a vehicle, sound information on the surroundings of the vehicle, brake information of the vehicle, or velocity information of the vehicle; a storage unit configured to store an auto stop function control model; and a processor configured to obtain, via the input unit, input data related to at least one of traffic information or driving information, obtain base data used for determining control of the auto stop function from the input data, determine an engine ignition timing or an engine ignition setting using the base data and the auto stop function control model, and ignite the engine of the vehicle automatically according to the determined engine ignition timing or the determined of engine ignition setting, wherein the engine ignition timing is an indication of how much time is required for the engine to be ignited after the input data is obtained or after the time of the determination, and wherein the engine ignition setting is an indication of whether to ignite the engine at the time of acquiring the input data or at the time of the determination.

Disclosed is an artificial intelligence apparatus for controlling an auto stop function. The artificial intelligence apparatus includes an input unit configured to receive at least one of image information on surroundings of a vehicle, sound information on the surroundings of the vehicle, brake information of the vehicle, or velocity information of the vehicle; a storage unit configured to store an auto stop function control model; and a processor configured to obtain, via the input unit, input data related to at least one of traffic information or driving information, obtain base data used for determining control of the auto stop function from the input data, determine an engine ignition timing or an engine ignition setting using the base data and the auto stop function control model, and ignite the engine of the vehicle automatically according to the determined engine ignition timing or the determined of engine ignition setting, wherein the engine ignition timing is an indication of how much time is required for the engine to be ignited after the input data is obtained or after the time of the determination, and wherein the engine ignition setting is an indication of whether to ignite the engine at the time of acquiring the input data or at the time of the determination.

A controller for a hybrid vehicle restarts an engine in a start mode selected from multiple start modes. The multiple start modes include a first start mode of starting combustion in the engine when a clutch starts transmitting torque and a second start mode of starting combustion in the engine after the clutch starts transmitting torque. The controller is configured to, in a case in which the engine is restarted in the second start mode, measure a cranking start time from when engagement of the clutch is commanded to when transmission of the torque through the clutch is started, and only when measurement of the cranking start time has been completed after the vehicle is activated, restart the engine in the first start mode.

A system includes a fuel tank, an internal combustion engine, a generator, a recoil starter, a control unit, an injector, a fuel pump, an igniter, and a detection unit that detects the crank angle of the internal combustion engine. The control unit, in a starting period of the internal combustion engine, which is started using the recoil starter, supplies electric power to the igniter, the injector, and the fuel pump such that a power supply period of the igniter will not overlap a power supply period of the injector and the fuel pump, using the crank angle as a reference.

A control unit is provided for a vehicle having an internal combustion engine with a shaft, which can be coupled to an electric machine or decoupled from the electric machine. The control unit is designed to couple the electric machine to the internal combustion engine during an engine stop of the internal combustion engine. The control unit causes the electric machine to guide the shaft of the internal combustion engine. The control unit determines that a speed of the guided shaft is equal to or less than a speed threshold value and, in response thereto, decouples the electric machine from the internal combustion engine, such that the internal combustion engine stops without being guided by the electric machine.

A system includes a fuel tank, an internal combustion engine, a generator, a recoil starter, a control unit, an injector, a fuel pump, an igniter, and a detection unit that detects the crank angle of the internal combustion engine. The control unit, in a starting period of the internal combustion engine, which is started using the recoil starter, supplies electric power to the igniter, the injector, and the fuel pump such that a power supply period of the igniter will not overlap a power supply period of the injector and the fuel pump, using the crank angle as a reference.