Vehicle control system and vehicle control method

The invention claimed is: 1. A vehicle control system, comprising: a continuously variable transmission having a pair of pulleys for changing a speed ratio continuously that is disposed between an input shaft to which torque of a prime mover is applied and an output shaft; a geared transmission that is disposed parallel to the continuously variable transmission, and that is adapted to establish a speed ratio that is larger than a maximum speed ratio established by the continuously variable transmission; and a friction clutch that is brought into engagement to switch a torque transmission route from a route including the geared transmission to a route including the continuously variable transmission; wherein the vehicle control system is configured to: start reducing a speed ratio of the continuously variable transmission before the friction clutch is brought into engagement completely when switching the torque transmission route from the route including the geared transmission to the route including the continuously variable transmission while increasing a rotational speed of the output shaft; and complete an engagement of the friction clutch while equalizing a change rate of a speed ratio between a rotational speed of the input shaft and the rotational speed of the output shaft with a change rate of a speed ratio of the continuously variable transmission. 2. The vehicle control system as claimed in claim 1 , wherein the vehicle control system is configured to complete an engagement of the friction clutch while changing the speed ratio of the continuously variable transmission continuously. 3. The vehicle control system as claimed in claim 1 , wherein the vehicle control system is configured to start reducing the speed ratio of the continuously variable transmission when a torque transmitting capacity of the friction clutch is larger than a predetermined value. 4. The vehicle control system as claimed in claim 1 , wherein the vehicle control system is configured to start reducing the speed ratio of the continuously variable transmission when a difference between the rotational speed of the output shaft and a rotational speed of the continuously variable transmission is smaller than a predetermined value. 5. The vehicle control system as claimed in claim 1 , wherein: the friction clutch comprises a hydraulic actuator, and the vehicle control system is configured to start reducing the ratio operation of the continuously variable transmission when a hydraulic pressure applied to the friction clutch is raised to be higher than a predetermined level. 6. The vehicle control system as claimed in claim 1 , further comprising: a first clutch adapted to connect and disconnect the input shaft to/from the geared transmission; and a second clutch adapted to connect and disconnect the continuously variable transmission to/from the output shaft; wherein the vehicle control system is further configured to bring the first clutch into engagement while bringing the second clutch into disengagement while propelling the vehicle by delivering torque through the route including the geared transmission, bring the first clutch into disengagement while bringing the second clutch into engagement while propelling the vehicle by delivering torque through the route including the continuously variable transmission, and start reducing the speed ratio of the continuously variable transmission before the second clutch is brought into engagement completely while switching the torque transmission route. 7. A control method for a vehicle comprising: a continuously variable transmission having a pair of pulleys for changing a speed ratio continuously that is disposed between an input shaft to which torque of a prime mover is applied and an output shaft; a geared transmission that is disposed parallel to the continuously variable transmission, and that is adapted to establish a speed ratio that cannot be established by the continuously variable transmission; and a friction clutch that is brought into engagement to switch a torque transmission route from a route including the geared transmission to a route including the continuously variable transmission; the method comprising: starting reduction of a speed ratio of the continuously variable transmission while a torque transmitting capacity of the friction clutch is being increased, when switching the torque transmission route from the route including the geared transmission to the route including the continuously variable transmission while increasing a rotational speed of the output shaft; thereafter completing an engagement of the friction clutch while equalizing a change rate of a speed ratio between a rotational speed of the input shaft and the rotational speed of the output shaft with a change rate of a speed ratio of the continuously variable transmission. 8. The control method for a vehicle as claimed in claim 7 , further comprising: completing the engagement of the friction clutch while changing the speed ratio of the continuously variable transmission continuously. 9. The control method for a vehicle as claimed in claim 7 , further comprising: starting reduction of the speed ratio of the continuously variable transmission when a torque transmitting capacity of the friction clutch is larger than a predetermined value. 10. The control method for a vehicle as claimed in claim 7 , further comprising: starting reduction of the speed ratio of the continuously variable transmission when a difference between the rotational speed of the output shaft and a rotational speed of the continuously variable transmission is smaller than a predetermined value. 11. The control method for a vehicle as claimed in claim 7 , wherein the friction clutch comprises a hydraulic actuator, and the control method further comprising starting reduction of the speed ratio of the continuously variable transmission when a hydraulic pressure applied to the friction clutch is raised to be higher than a predetermined level. 12. The control method for a vehicle as claimed in claim 7 , wherein the friction clutch includes a first clutch adapted to connect and disconnect the input shaft to/from the geared transmission, and a second clutch adapted to connect and disconnect the continuously variable transmission to/from the output shaft, and the control method further comprising: bringing the first clutch into engagement while bringing the second clutch into disengagement while propelling the vehicle by delivering torque through the route including the geared transmission; bringing the first clutch into disengagement while bringing the second clutch into engagement while propelling the vehicle by delivering torque through the route including the continuously variable transmission; and starting reduction of the speed ratio of the continuously variable transmission before the second clutch is brought into engagement completely while switching the torque transmission route.