Brain-computer interface (BCI) provides a channel to communicate with external world only through cerebral activity, thus replacing the normal pathway of communication by using muscles. The electroencephalography (EEG) is commonly used in the BCI system. When a subject is performing specific tasks, the EEG signals induced by the subject’s neuronal activities are recorded and analyzed. Then, the analyzed EEG signals will be translated to the corresponding commands to control prosthesis or cursor, spell words, answer questions. Nowadays, there are many development of BCI systems such as Motor-imagery based BCI systems, ERP-based BCI systems. In the existing BCI studies, P300-based BCI systems are commonly conducted, because P300 ERP can be reliably measured without initial user training. To reduce training time and subjects’ burden, our P300-based BCI system is implemented by using a three-choice paradigm. We use a typical P300 analysis method, stepwise linear discriminant analysis (SWDA) for feautre selection and classification. To improve the system, we propose a ”voting strategy” to automatically make the online system adaptable to users. More specifically, we combine SWDA with moving window to produce the temporal features for voting. Through the temporal features which can decide the threshold, the online system can dynamically make decision while maintaining the accuracy of classification. In this way, we improve the performance and efficiency of communication in online BCI system. Three able-body subjects are recruited to participate in the offline experiments, and seven able-body subjects are recruited to participate in online experiments. The results of this study present better performances than those in the four-choice offline system provided by Sellers and Donchin (2006). In offline analysis, the transfer rates can be achieved up to 7.7 bits/min with an accuracy of 83.4%, while the transfer rates of online testing can be achieved up to 5.28 bits/min with an accuracy of 100%. These results suggest that the performances of our system are better than four-choice system in which transfer rate is 1.8 bits/min with accuracy of 97%, thus indicating the advantage of the adaptability in BCI system.