Electrified vehicle system and control method of controlling electrified vehicle

What is claimed is: 1. An electrified vehicle system comprising: an electric motor coupled to a drive wheel via a plurality of power train components; and a processor configured to: input a required torque of the electric motor from a driver; determine a base command torque of the electric motor based on: the required torque of the electric motor, and a transfer function simulating vibration transmission characteristics of a power train from the electric motor to the drive wheel; output the base command torque of the electric motor; estimate, based on information on the power train, a timing at which a backlash between the plurality of power train components is eliminated; and apply, to the base command torque, a correction torque for reducing a vibration generated in the power train due to elimination of the backlash, in response to an arrival of the estimated timing. 2. The electrified vehicle system according to claim 1 , wherein the information on the power train includes an angular velocity of the electric motor and an angular velocity of the drive wheel, and wherein the processor is configured to calculate, based on a relative angular velocity of the angular velocity of the electric motor with respect to the angular velocity of the drive wheel, an integrated relative angle of the electric motor with respect to the drive wheel after a start of reduction of the backlash, and estimate that the timing is when a calculated integrated relative angle reaches a designated backlash amount. 3. The electrified vehicle system according to claim 1 , wherein the correction torque has a phase opposite to a waveform of torque generated due to the elimination of the backlash and inputted into the power train. 4. The electrified vehicle system according to claim 1 , wherein the processor is configured to: set, as a stepped first predicted torque, a torque that is presumed to be generated due to the elimination of the backlash and inputted into the power train; apply, to the first predicted torque, a filter processing to reduce a natural resonance frequency component of the power train and outputting a second predicted torque; and subtract the first predicted torque from the second predicted torque to calculate the correction torque. 5. A control method of controlling an electrified vehicle equipped with an electric motor coupled to a drive wheel via a plurality of power train components, and a processor, the control method comprising, using the processor: inputting a required torque of the electric motor from a driver; determining a base command torque of the electric motor based on: the required torque of the electric motor, and a transfer function simulating vibration transmission characteristics of a power train from the electric motor to the drive wheel; outputting the base command torque of the electric motor; estimating, based on information on the power train, a timing at which a backlash between the plurality of power train components is eliminated; and applying, to the base command torque, a correction torque for reducing a vibration generated in the power train due to elimination of the backlash, in response to an arrival of the estimated timing.