My research is focused on the use of satellite derived bathymetry to document multidecadal changes in the morphology of the nearshore to depths approaching the modal wave climate depth of closure. The aim of this research is to investigate the relationship of morphological change to shifts in dominant climate drivers.
Qualifications
Master of Research, Macquarie University
Bachelor of Arts, Macquarie University
Master of Applied Linguistics, Macquarie University
Chang H-C, Burke A, 'INTEGRATION OF HYPERSPECTRAL AND POLARIMETRIC RADAR REMOTE SENSING TECHNIQUES FOR MONITORING INVASIVE WEEDS', 2014 IEEE INTERNATIONAL GEOSCIENCE AND REMOTE SENSING SYMPOSIUM (IGARSS) (2014)
Invasive plant species have been identified as major threats to biodiversity and the survival of native species and ecosystems. This study is to effectively identify th... [more]
Invasive plant species have been identified as major threats to biodiversity and the survival of native species and ecosystems. This study is to effectively identify the invasive weed, namely African Olives, within the Hawkesbury Nepean catchment in Sydney's west. Spectral analysis using airborne hyperspectral imagery and polarimetric COSMO-SKYMED X-band data are utilized in this study to monitor the occurrence of an invasive weed species, African Olive. Field surveys, as well as, the vegetation subgroup maps were used to validate the results.
Power HE, Broadfoot MSS, Burke A, Donaldson PM, Hart RM, Mollison KC, Schmidt DJ, Young SM, 'Lessons Learned from Running a Conference in the Time of COVID-19 and the Silver Linings of Shifting to Online', OCEANOGRAPHY, 33, 21-25 (2020)
