For the information control of wearable man-machine interactive equipment, the traditional control model is easy to be affected by behavior jitter, which leads to low control efficiency. In order to solve this problem, a control model based on inertial sensor is proposed. The deformation of the inner sensitive element of the inertial sensor under the external force is analyzed by measuring the deformation quantity, which is used as the human-computer interaction space to deal with the surface behavior and the mixed behavior in this space. And design the process of continuous interactive space layered processing. According to the results of hierarchical processing, the specific sensing stages and control steps are studied. By analyzing the time of different stages, wearable man-machine interaction based on inertial sensors can be effectively controlled. Equipment information. After anti-shake treatment, the jitter problem of traditional model can be improved. The experimental results show that the maximum control efficiency of the model can reach 91%, and the model has better control effect.