Method of controlling gear shift in neutral gear stage in hybrid electric vehicle

What is claimed is: 1. A method of controlling a gear shifting in a neutral gear stage in a hybrid electric vehicle, the method comprising: determining, by a controller of the vehicle, when a current gear stage is a neutral gear stage (N-stage); determining, by the controller, when a gear position is in a drive stage (D-stage) or a rearward drive stage (R-stage) in a response that the current gear state is determined to be the N-stage; determining, by the controller, when a shift class of the gear shifting is a shift class from the N-stage to the D-stage or a shift class from the N-stage to the R-stage in a response that the gear position is determined to be in the D-stage or the R-stage; determining, by the controller, a shift gear ratio in the N-stage in a current state of the vehicle by use of a transmission (TM) output speed and a TM input speed at a class transition time point in a response that the shift class of the gear shifting is determined to be the shift class from the N-stage to the D-stage or the shift class from the N-stage to the R-stage; determining an N-stage gear shifting progressing rate by use of the determined shift gear ratio in the N-stage; setting, by the controller, time points of a start and an end of speed control for setting the time points of the start and the end of the gear shifting based on the determined gear shifting progressing rate; and controlling, by the controller, a speed of the gear shifting in the N-stage with reference to a gear shifting target speed and the TM input speed in a section of the time points of the start and the end of the speed control. 2. The method of claim 1 , wherein in the determining, by the controller, the shift gear ratio in the N-stage, the N-stage shift gear ratio is determined based on the following Equation 4 N -Stage Shifting Gear Ratio=((Transmission Input Speed at Transition Time Point of Shifting Class of Gear Shifting from N -Stage To D -Stage or Gear Shifting from N -Stage to R -Stage)/(Transmission Output Speed at Transition Time Point of Shifting Class of Gear Shifting from N -Stage To D -Stage or Gear Shifting from N -Stage to R -Stage))  (Equation 4). 3. The method of claim 1 , wherein in the determining the N-stage gear shifting progressing rate, the N-stage gear shifting progressing rate is determined based on the following Equation 5 N -Stage Gear Shifting Progressing Rate=(Transmission Input Speed−Transmission Output Speed* N -Stage Gear Ratio)/(Transmission Output Speed*Target Gear Ratio−(Transmission Output Speed* N -Stage Gear Ratio)))  (Equation 5). 4. The method of claim 1 , wherein in the setting the time points of the start and the end of the speed control, the controller is configured to set the time points of the start and the end of the gear shifting as values between 10% and 90% based on the determined gear shifting progressing rate. 5. The method of claim 1 , wherein in the controlling the gear shifting speed in the N-stage, the controller is configured to set a speed control gain value by a deviation between the gear shifting target speed and a current gear shifting speed in accordance with the TM input speed and to perform feedback motor torque of a motor in the vehicle.