This research aims to develop a strategy to reduce the undersirable jerk of a hybrid electric vehicle during its’ mode switching due to the incontinuous torque output. By doing so, we can improve the comfortness of passengers and lengthen the lifespan of the powertrain. In this research, we will build a model of the powertrain in the form of equations of motion based on its physical concept, to form a virtual testbed for the mode switching smoothing strategy. First, we will define the circumstances we want to model to define the function each component’s model must accomplish. Then build the model with matlab/Simulink software, and divide the model into several subsystems to facilitate future upgrading of the system, and make the system meet the needs of the research by continuous modification and expansion throughout the model building process. By sorting the mode switching process into several phases according the the reason it generates undersirable jerk, we will design a strategy for each phase individually, and then combine them into a complete mode switching smoothing strategy. This research will also analyse the system’s sensitivity by studying the influence of the coefficients of the equations of motion of both the powertrain system and the driving shaft and wheel system on the jerk response and discuss how the characteristics of each mechanical elements affect the drivability of the car.