Vehicle control apparatus, and method of controlling same

The invention claimed is: 1. A vehicle control apparatus for a vehicle, the vehicle comprising: an engine of the vehicle that is configured to output a driving force to a wheel of the vehicle, the engine comprising an intake throttle; a continuously variable transmission connected to the engine, the continuously variable transmission being configured to change a ratio between an input rotation speed and an output rotation speed; an accelerator pedal opening sensor configured to detect an accelerator pedal opening of an accelerator pedal; and an atmospheric pressure sensor configured to detect an atmospheric pressure, the vehicle control apparatus comprising: a first target driving force calculation unit configured to calculate a first target driving force based on the accelerator pedal opening detected by the accelerator pedal opening sensor; a target speed ratio calculation unit configured to calculate a target speed ratio of the continuously variable transmission based on the first target driving force; a target torque calculation unit configured to calculate a target torque of the engine based on the first target driving force; and a first correction unit configured to correct only the target torque of the target speed ratio and the target torque in accordance with the atmospheric pressure detected by the atmospheric pressure sensor, wherein the vehicle control apparatus is configured to control the intake throttle of the engine based on the corrected target torque, and control the continuously variable transmission based on the target speed ratio. 2. The vehicle control apparatus according to claim 1 , wherein the first correction unit is configured to calculate a second target driving force by correcting the first target driving force based on the atmospheric pressure, and wherein the target torque calculation unit is configured to calculate the target torque based on the second target driving force. 3. A vehicle control apparatus for a vehicle, the vehicle comprising: an engine configured to output a driving force to a wheel of the vehicle, the engine comprising an intake throttle; a continuously variable transmission connected to the engine, the continuously variable transmission being configured to change a ratio between an input rotation speed and an output rotation speed; an accelerator pedal opening sensor configured to detect an accelerator pedal opening of an accelerator pedal; an atmospheric pressure sensor configured to detect an atmospheric pressure; and a switch configured to determine whether cruise control is performed or not, the vehicle control apparatus comprising: a first target driving force calculation unit configured to calculate a first target driving force based on the accelerator pedal opening detected by the accelerator pedal opening sensor; a cruise control target driving force calculation unit configured to calculate a third target driving force that is not dependent on the accelerator pedal opening in a case where the switch determines that the cruise control is performed; a target speed ratio calculation unit configured to calculate a target speed ratio of the continuously variable transmission based on the first target driving force; a target torque calculation unit configured to calculate a target torque of the engine based on the first target driving force or the third target driving force; a first correction unit configured to, when causing the vehicle to run based on the first target driving force, correct only the target torque of the target speed ratio and the target torque in accordance with the atmospheric pressure detected by the atmospheric pressure sensor; and a second correction unit configured to, when causing the vehicle to run based on the third target driving force, correct only the target speed ratio of the target speed ratio and the target torque in accordance with an atmospheric pressure of an environment in which the vehicle is running, wherein the vehicle control apparatus is configured to control the intake throttle of the engine and based on the target torque in a case where the switch determines that the cruise control is performed. 4. The vehicle control apparatus according to claim 3 , wherein the second correction unit is configured to calculate a fourth target driving force by correcting the third target driving force based on the atmospheric pressure detected by the atmospheric pressure sensor, the fourth target driving force being uninfluenced by the atmospheric pressure of the environment in which the vehicle is running, and wherein, when causing the vehicle to run based on the third target driving force, the target speed ratio calculation unit is configured to calculate the target speed ratio based on the fourth target driving force. 5. A method of controlling a vehicle control apparatus for a vehicle, the method comprising: calculating a first target driving force based on an accelerator pedal opening of an accelerator pedal of the vehicle; calculating a target speed ratio of a continuously variable transmission of the vehicle based on the first target driving force; calculating a target torque of an engine of the vehicle based on the first target driving force; detecting an atmospheric pressure; correcting only the target torque of the target speed ratio and the target torque in accordance with the atmospheric pressure; controlling an intake throttle of the engine based on the corrected target torque; and controlling the continuously variable transmission based on the target ratio. 6. A vehicle control apparatus for a vehicle, the vehicle comprising: an engine configured to output a driving force to a wheel of the vehicle, the engine comprising an intake throttle; a continuously variable transmission connected to the engine, the continuously variable transmission is configured to change a ratio between an input rotation speed and an output rotation speed; an accelerator pedal opening sensor configured to detect an accelerator pedal opening of an accelerator pedal; and an atmospheric pressure sensor configured to detect an atmospheric pressure, the vehicle control apparatus comprising: a first target driving force calculation means for calculating a first target driving force based on the accelerator pedal opening detected by the accelerator pedal opening sensor; a target speed ratio calculation means for calculating a target speed ratio of the continuously variable transmission based on the first target driving force; a target torque calculation means for calculating a target torque of the engine based on the first target driving force; and a first correction means for correcting only the target torque of the target speed ratio and the target torque in accordance with the atmospheric pressure detected by the atmospheric pressure sensor, wherein the vehicle control apparatus is configured to control the intake throttle of the engine based on the corrected target torque and control the continuously variable transmission based on the target speed ratio. 7. The vehicle control apparatus according to claim 3 , wherein the first correction unit is configured to calculate a second target driving force by correcting the first target driving force based on the atmospheric pressure, and wherein the target torque calculating unit is configured to calculate the target torque based on the second target driving force. 8. A method of controlling a vehicle control apparatus for a vehicle, the method comprising: determining whether cruise control is performed or not; calculating a first target driving force based on an accelerator pedal opening detected by an accelerator pedal opening sensor; calculating a third target driving force that