Improving Signal Detection Range of Active Seismic Monitoring in Mines. This project will develop a new generation of sensors that will process incoming seismic waves from an active source to accurately estimate the properties of underground rock mass in real time. This will lead to safer mining operations that will decrease the number of injuries and deaths. A probability graph model will be used to fuse measurements from different sensors to produce more accurate estimates of the rock mass. A ....Improving Signal Detection Range of Active Seismic Monitoring in Mines. This project will develop a new generation of sensors that will process incoming seismic waves from an active source to accurately estimate the properties of underground rock mass in real time. This will lead to safer mining operations that will decrease the number of injuries and deaths. A probability graph model will be used to fuse measurements from different sensors to produce more accurate estimates of the rock mass. A new low-cost seismic source will excite large areas of rock mass for continuous monitoring of the changes in stress and fracture density caused by mining. This will lead to methodologies that will significantly improve mining operations and increase Australia’s productivity in the mining sector.Read moreRead less
Electronically controlled phased array antenna for universal Ultra-High-Frequency (UHF) Radio-Frequency Identification (RFID) applications. RFID may potentially replace barcodes allowing automated identification of individual items at multiple points in supply and distribution chains. A smart antenna engineered RFID reader improves efficacy in a host of applications such as logistics and security surveillance and tremendously benefits Australian economy as a key player in the field.