Mobility is an important issue of wireless network research. How to deliver data without interruption and guarantee the QoS after device move? Wireless sensor networks are emerging as a popular research issue and tool for habitat monitoring in nature preserves, monitoring and gathering events in hazardous environments, surveillance of buildings, and surveillance of enemy activities in a battlefield environment. Advances in processor, radio, and battery technology will enable small and cheap nodes capable of sensing, wireless communication, and data computation. This kind of sensor nodes not only can respond to and detect the change of environment source, and can deal with the data they collected, and then deliver to sink or base station by wireless links after data aggregation. However, nodes in a sensor network are severely constrained by energy, storage capacity and computing power. To save the energy consumption in transmission, sensor networks should be short-range operation, low data rate, and a reasonable battery life. Therefore, if a sensor node is far from the base station, it must deliver the data by using multi-hop routing methods. Hence, we propose integration architecture by combining ultra-wideband (UWB) and routing protocol related to sensor networks. By using this architecture, we wish that sensor networks can support fast location-tracking, paging mechanism, information gathering and response, and offer good QoS level for data transmission according to different requests.