The data dropout and time delay in the network control system (NCS) affect its control performance greatly. In this thesis, the message estimator and the traffic monitor designed for the wireless network control system (WiNCS) are proposed. Instead of the event-trigger NCS, the output feedback signal is sent by the time trigger and the received node implemented with a message estimator to compensate for the lost data. Different estimators in the WiNCS have been discussed and results indicate that the Taylor estimator is chosen with easy implementation on a light-traffic network communication. However, with a heavy network load, the intelligent message estimator (IME) is suitable to cope with the unstable problem in the Taylor estimator. Experiment results show that the Taylor estimator reduced the output error 30.1 % with a light network load, and the IME reduced the output error 74.7% with a heavy network load. Finally, when the network traffic is too heavy to the feedback estimator, the sampling time was adjusted according to the data dropout rate, obtained from the network traffic monitor, to further decrease the dropout rate almost 10~15% to achieve a robust NCS under different environments.