Bluetooth includes the concept of devices participating in multiple �piconets� interconnected via bridge devices and thereby forming a �scatternet�. This paper presents a scheme for Bluetooth scatternet operation that adapts to varying traffic patterns. According to the traffic information of all masters that the bridge is connected, the bridge switches to the masters with high traffic loads and increase the usage of the bridge. In addition, load adaptive interpiconet scheduling can reduce the number of failed unsniffs and the overhead of the bridge switch wastes to further increase the overall system performance.