Active suspension systems generally have complicated and nonlinear characteristics,so it is difficult to design a model-based controller for the control of such systems. To overcome the difficulty, this study developed a self-organizing fuzzy sliding-mode radial basis-function neural-network controller (SFSRBNC) to manipulate an active suspension system and then evaluate its control performance. The SFSRBNC not only eliminates the problem caused by the inappropriate selection of parameters in both a self-organizing fuzzy controller (SOFC) and a self-organizing fuzzy sliding-mode controller (SFSC), but also solves the stability problem of a self-organizing fuzzy radial basis-function neuralnetwork controller (SFRBNC) application. Simulation results demonstrated that the SFSRBNC achieved better control performance than the SOFC, SFSC, SFRBNC as well as passive control, in terms of the ride comfort and the road-holding capability of the vehicle,as well as the service life of the suspension system.