Speed change control system for vehicles

The invention claimed is: 1. A speed change control system, that is applied to a vehicle in which a transmission having a plurality of engagement devices whose torque capacities are changed continuously is connected to an output side of a prime mover, and in which a gear stage of the transmission is shifted among a plurality of stages by changing engagement states of the engagement devices, and that is configured to carry out a clutch-to-clutch shifting of the gear stage from a predetermined gear stage to another gear stage by gradually reducing a torque capacity of the predetermined engagement device to be disengaged while gradually increasing a torque capacity of another engagement device to be engaged, comprising: an output shaft torque calculator that calculates a target torque value of an output shaft of the transmission on the basis of an input shaft torque of the transmission based on a drive demand of a driver, an angular acceleration of the input shaft of the transmission, an angular acceleration of the output shaft of the transmission, and a torque transmission ratios of the engagement device to be engaged and the engagement device to be disengaged; and a torque capacity calculator that calculates a torque capacities of the engagement device to be engaged and the engagement device to be disengaged during a torque phase and an inertia phase under the clutch-to-clutch shifting using a common arithmetic expression, on the basis of the target torque value of the output shaft, the angular acceleration of the input shaft of the transmission, the angular acceleration of the output shaft of the transmission, and the torque transmission ratios of the engagement device to be engaged and the engagement device to be disengaged that changes with a progression of the clutch-to-clutch shifting. 2. The speed change control system as claimed in claim 1 , further comprising: a prime mover torque calculator that calculates a required torque value of the prime mover during the torque phase and the inertia phase under the clutch-to-clutch shifting, on the basis of the target torque value of the output shaft, the angular acceleration of the input shaft of the transmission, the angular acceleration of the output shaft of the transmission, and the torque transmission ratios of the engagement device to be engaged and the engagement device to be disengaged. 3. The speed change control system as claimed in claim 2 , wherein the prime mover torque calculator is configured to calculate the required torque value of the prime mover using an arithmetic expression derived from an equation of motion for the transmission that determines a relation among the target torque value of the output shaft, the angular acceleration of the input shaft of the transmission, the angular acceleration of the output shaft of the transmission, and the torque transmission ratios of the engagement device to be engaged and the engagement device to be disengaged; and wherein the output shaft torque calculator is configured to calculate the target torque value of the output shaft by said arithmetic expression using an output torque of the prime mover based on the drive demand of the driver, the angular acceleration of the input shaft of the transmission, the angular acceleration of the output shaft of the transmission, and the torque transmission ratios of the engagement device to be engaged and the engagement device to be disengaged. 4. The speed change control system as claimed in claim 1 , wherein the torque capacity calculator is configured to calculate the torque capacities of the engagement device to be engaged and the engagement device to be disengaged using another arithmetic expression derived from an equation of motion for the transmission that determines a relation among the target torque value of the output shaft, the angular acceleration of the input shaft of the transmission, the angular acceleration of the output shaft of the transmission, and the torque transmission ratios of the engagement device to be engaged and the engagement device to be disengaged. 5. The speed change control system as claimed in claim 2 , wherein the torque capacity calculator is configured to calculate the torque capacities of the engagement device to be engaged and the engagement device to be disengaged using another arithmetic expression derived from an equation of motion for the transmission that determines a relation among the target torque value of the output shaft, the angular acceleration of the input shaft of the transmission, the angular acceleration of the output shaft of the transmission, and the torque transmission ratios of the engagement device to be engaged and the engagement device to be disengaged. 6. The speed change control system as claimed in claim 3 , wherein the torque capacity calculator is configured to calculate the torque capacities of the engagement device to be engaged and the engagement device to be disengaged using another arithmetic expression derived from an equation of motion for the transmission that determines a relation among the target torque value of the output shaft, the angular acceleration of the input shaft of the transmission, the angular acceleration of the output shaft of the transmission, and the torque transmission ratios of the engagement device to be engaged and the engagement device to be disengaged.