Discovery Early Career Researcher Award - Grant ID: DE140101741
Funder
Australian Research Council
Funding Amount
$389,220.00
Summary
Development of a Self-powered Wireless Sensor Network from Renewable Energy for Integrated Structural Health Monitoring and Diagnosis. This project aims to develop a green and sustainable self-powered wireless sensor network from renewable energy sources, such as wind, sea wave and operational vibrations, for integrated structural health monitoring and diagnosis to support infrastructure management. Vibration based energy harvesting techniques will be investigated to power the wireless sensor ne ....Development of a Self-powered Wireless Sensor Network from Renewable Energy for Integrated Structural Health Monitoring and Diagnosis. This project aims to develop a green and sustainable self-powered wireless sensor network from renewable energy sources, such as wind, sea wave and operational vibrations, for integrated structural health monitoring and diagnosis to support infrastructure management. Vibration based energy harvesting techniques will be investigated to power the wireless sensor networks and support the long term condition monitoring. Vibration data from the sensor network will be used for damage detection, performance assessment and safety evaluation of structures. The impact of the project output includes fundamental advances in vibration energy harvesting, wireless sensor network and intelligent structural health monitoring strategy for Australian infrastructure.Read moreRead less
Mechanisms controlling displacement pile behaviour in sands. The project will exploit the potential of the drum centrifuge and recent innovations in earth pressure cell design to provide a uniquely comprehensive investigation into the factors controlling the performance of displacement piles in sand. A wide range of factors affecting the stresses that develop at the pile-soil interface will be examined in a systematic fashion to facilitate the derivation of more reliable and efficient design app ....Mechanisms controlling displacement pile behaviour in sands. The project will exploit the potential of the drum centrifuge and recent innovations in earth pressure cell design to provide a uniquely comprehensive investigation into the factors controlling the performance of displacement piles in sand. A wide range of factors affecting the stresses that develop at the pile-soil interface will be examined in a systematic fashion to facilitate the derivation of more reliable and efficient design approaches for piles.Read moreRead less
Geotechnical and soil-structure interaction properties of soils in Perth CBD. A new underground railway (City Project) will shortly begin construction in Perth CBD. This construction, and its associated high level of monitoring instrumentation, offers a unique opportunity for an extensive and thorough examination of the mechanical properties of Perths soils. The research results emanating from the proposed combination of field monitoring, laboratory investigation and numerical analysis, will gre ....Geotechnical and soil-structure interaction properties of soils in Perth CBD. A new underground railway (City Project) will shortly begin construction in Perth CBD. This construction, and its associated high level of monitoring instrumentation, offers a unique opportunity for an extensive and thorough examination of the mechanical properties of Perths soils. The research results emanating from the proposed combination of field monitoring, laboratory investigation and numerical analysis, will greatly improve the reliability (and hence cost) of future foundation and basement designs in Perth and elsewhere.Read moreRead less
Airborne vibration isolation for geophysical exploration. Sensitive airborne instrumentation for geophysical exploration is almost always degraded in sensitivity by the high levels of vibration and acoustic noise in survey aircraft. This project will develop a prototype robust vibration isolator with exceptional isolation across the audio frequency band. The device uses advanced techniques developed for gravitational wave detection. The system will be tested in survey aircraft using both vib ....Airborne vibration isolation for geophysical exploration. Sensitive airborne instrumentation for geophysical exploration is almost always degraded in sensitivity by the high levels of vibration and acoustic noise in survey aircraft. This project will develop a prototype robust vibration isolator with exceptional isolation across the audio frequency band. The device uses advanced techniques developed for gravitational wave detection. The system will be tested in survey aircraft using both vibration sensors and actual survey instrumentation to confirm its effectiveness, robustness and durability.Read moreRead less