Recently, nonvolatile memories have receive greater attention became of their wide application in electronic systems, the conventional floating gate memories are expected to reach certain technical and physical limit in the near future, and the wealth of researches have been proceeded for the next generation nonvolatile memories. The resistive random access memories (RRAMs) is a major candidate for the next-generation nonvolatile memory due to its advantages of low power consumption, and high-bit desity, high speed, high endurance and nondestructive read. In this thesis, the resistive switching characteristics in Pt/ErOx/TiN device are investigated, and our study can be categorized into seve parts included the cell size effect, thickness effect, current compliances, the stop voltages , constant voltage stresses, constant current stresses and temperature effect. By exploiting these few kinds of devices and measurement skills, we can investigated the filament formation and redox in the device when resistive switching occurs. We propose a model to explain the phenomenon observed in our experiments. The model which is electrically driven redox reaction at the local interface between ErO and TiN electrode behind the filament that is formation in forming process had been established. It can explain the temperature effect and resistive switching behavior under stress. The activate energy had been measured to calculate the retention and read disturb behavior.