This paper addresses the problem of phase and speed synchronization control of four exciters in vibration system considering material influence. Aiming at the synchronous control problem of the exciters， firstly the dynamic model of the vibration system excited by four exciters is established considering the force of material. As the existence of coupling dynamics characteristic between adjacent exciters， an accurate adjacent cross-coupling control （ACCC） strategy method is proposed to control the vibration system. The stability of ACCC controller is verified through the Lyapunov stability theorem. The Matlab simulation results show that， the proposed ACCC strategy controller can reduce speed overshoot during the start-up phase of the induction motor and the chattering when the speed is stable， and improve the control accuracy. The ACCC controller controls the four reverse-rotation exciters in the vibration system considering nonlinear force of material， and the vibration system realizes a linear vibration trajectory. Finally， the influence of material parameter changes on adjacent cross-coupling controllers is discussed in the vibration system， showing the effectiveness of adjacent cross-coupling controllers.