When a viscous drop is placed on the vertically oscillating liquid bath with the same fluid, the drop can bounce on the surface for a long time. We investigate the deformation and the mobility of the bouncing drop induced by the distorted surface. When the driving frequency is similar to the ”Rayleigh” frequency fR of the drop, the resonance between the surface and the bouncing drop occurs. Then the drop is gradually elongated to ellipse shape. The drop finally rotates and progresses unidirectionally like a ”glider” on the surface. The effect of the shear force acting on the drop from the surface is observed by the elongate shape of the drop. From the particle image velocimetry technique, the pattern of flow field under the surface is visualized which shows the steady streaming vortex flow on the both sides of the drop. Therefore, when the two drops bounce on the surface simultaneously, the steady streaming flow mediates the two drops and present three different coupling states. We found that the coupling distances decrease with the driving frequency increasing and are related to the capillary wavelength. The flow fields of each coupling state shows the different velocity distributions which indicates the various reason of the coupling drops. As the driving frequency is near the fR, the two bouncing drops present the coupling oscillation motion on the horizontal direction where the streaming flow field plays the role of connecting the two drops.