This paper aimed to design robust and precise control systems for the position control of a non-linear and time-varying voice coil motor (VCM). First, a proportional-integral-derivative based fuzzy neural network with elitist bacterial foraging optimization (PIDFNN-EBFO) control strategy was proposed in which the initial parameters of the network were optimized to avoid falling into local optimal solutions. Subsequently, a compensatory fuzzy neural network with dynamic particle swarm optimization (CFNN-DPSO) control approach was further developed to simplify the computational burden of the PIDFNN-EBFO control system. In CFNN-DPSO, the CFNN and DPSO were used to derive the control effort and estimate the Jacobian term, respectively. Besides, an Elman neural network (ENN) was used to serve as a virtual VCM system for the online estimation of the mover position. In order to improve the robustness of the VCM control system, an intelligent fractional order sliding mode control (IFOSMC) system was proposed in this study. In the IFOSMC, a CFNN observer was designed to observe a lumped uncertainty and replace the hitting control directly. Besides, a switching compensator was employed to compensate the observation error considering the system stability and control smoothness. All the real-time control systems were implemented via the digital signal processor (DSP). Moreover, two reference trajectories and two test conditions were provided to evaluate the control performances in this study. From the experimental results, the VCM can be controlled to track the reference trajectories efficiently and accurately via the proposed control systems.