Photogrammetric Reconstruction for Underwater Virtual Heritage Experiences. This project aims to enable significant underwater cultural heritage sites such as shipwrecks to be recreated in immersive underwater virtual heritage experiences. Photogrammetric 3D reconstruction techniques will be used to generate complex digital 3D models of shipwreck sites from hundreds of thousands of underwater images. This will allow vivid experiences to be created which explain the stories of these wrecks. The p ....Photogrammetric Reconstruction for Underwater Virtual Heritage Experiences. This project aims to enable significant underwater cultural heritage sites such as shipwrecks to be recreated in immersive underwater virtual heritage experiences. Photogrammetric 3D reconstruction techniques will be used to generate complex digital 3D models of shipwreck sites from hundreds of thousands of underwater images. This will allow vivid experiences to be created which explain the stories of these wrecks. The project will conduct audience engagement studies to recommend the most appropriate methods to implement underwater virtual heritage experiences for Australian audiences. The sites which will be used as test datasets are some of the most significant Australian shipwreck sites, including HMAS Sydney (II) and HMAS AE1.Read moreRead less
Beyond fire frequency: understanding fire season for ecosystem management. This project aims to investigate how the season of fire, arguably one of the biggest changes brought about by fire management, can impact ecosystems and the persistence of threatened species. The project expects to generate new yet fundamental knowledge of how the timing of fire has shifted, using a multidisciplinary team with expertise in remote sensing and fire ecology, and experimentally assess fire season effects on s ....Beyond fire frequency: understanding fire season for ecosystem management. This project aims to investigate how the season of fire, arguably one of the biggest changes brought about by fire management, can impact ecosystems and the persistence of threatened species. The project expects to generate new yet fundamental knowledge of how the timing of fire has shifted, using a multidisciplinary team with expertise in remote sensing and fire ecology, and experimentally assess fire season effects on soil properties and plant persistence. The project aims to enhance capacity of conservation agencies across Australia to effectively implement fires while maintaining biodiversity values. This should provide significant benefits for informed management of the large numbers of threatened species under their protection.Read moreRead less