Associate Professor
Frederic GilbertProfile page
Associate Professor in Philosophy and Ethics
Philosophy and Gender Studies
Orcid identifier0000-0003-0524-8649
- Associate Professor in Philosophy and EthicsPhilosophy and Gender Studies
- +61 3 6226 1703 (Work)
- +61 3 6226 7847 (Fax)
- School of Humanities, Philosophy and Gender Studies, 369 Humanities Building, Sandy Bay Campus, TAS
RESEARCH INTERESTS
Expertise:
Neuroethics
Human experimental trial
First-in-human clinical trial
Bioethics
Medical Ethics
Applied Ethics
AI Ethics,
Brain-Computer Interfaces,
Nursing Ethics
Current projects
Agency and Algorithms
Goal: 1: Understand the phenomenological effects of invasive AI systems on agency
Goal 2: Advance ethical, social and legal knowledge link to novel usage of intrusive AI system, in particular autonomous ones.
Goal 3: Critically engage with claims about issues raised by disruptive AI
Neuroethics
Human experimental trial
First-in-human clinical trial
Bioethics
Medical Ethics
Applied Ethics
AI Ethics,
Brain-Computer Interfaces,
Nursing Ethics
Current projects
Agency and Algorithms
Goal: 1: Understand the phenomenological effects of invasive AI systems on agency
Goal 2: Advance ethical, social and legal knowledge link to novel usage of intrusive AI system, in particular autonomous ones.
Goal 3: Critically engage with claims about issues raised by disruptive AI
PROJECTS
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Showing page 1, grants 1 to 6 of 6
GRANT
The magnetization of Earth's lithosphere - a new view from space
Australian Research Council1 Mar 2023 - 28 Feb 2027
People funded by this grant: Williams S
Project Total: $950,498; The Earth's magnetic field is a fundamental tool for studying the structure and dynamics of the Earth, from crust to core; but exactly where much of this field comes from is poorly understood. The project expects to uncover the dominant sources of magnetisation close to Earth's surface using new satellite observations. Expected outcomes of this project include the development of innovative models of Earth magnetisation that will be used to gain crucial insights into the dynamic evolution of our planet's crust and uppermost mantle. The benefits of the project address both economic and environmental issues, unravelling the nature of structures that control both mineral systems and heat flow variations beneath the Antarctic ice sheet. Funded by: Australian Research Council - Fellowship-Future ($950,498); University of Tasmania ($115,090).
GRANT
How Earth's deep interior communicates with the surface
Australian Research Council15 Jun 2020 - 14 Jun 2023
People funded by this grant: Seton M, Carey R, Williams S, Coltice N, Duncan B
Project Total: $549,000; Massive outpourings of magma are a driver of the Earth System, responsible for causing major planetary-scale disruption. This project will reveal the interrelationship between the hot, deep sources of volcanic material, and the tectonic processes at the Earth's surface. Expected outcomes of this project include global leadership in the development of innovative geodynamic modelling capability, which applied to unique datasets in our region will
provide a geological framework for the urgent address of pressing questions across the sciences (e.g., climate). The project outcomes will generate significant new fundamental knowledge which can be directly linked societal, environmental and financial benefits for our nation Funded by: Australian Research Council - Grant-Discovery Projects; University of Sydney; University of Tasmania ($4,500).
GRANT
The Balleny mantle plume: key role in Tasmania-Antarctic breakup?
CSIRO-Commonwealth Scientific & Industrial Research Organisation27 Dec 2018 - 10 Jan 2019
People funded by this grant: Whittaker J, Carey R, Williams S
Project Total: $1,938,996; This frontier work will address first-order geoscientific questions on the fundamental processes driving plate tectonic motions, particularly the separation between Australia and Antarctica. It will focus on the role of the Balleny plume, an upwelling of hot material through the Earth's interior, that was responsible for the formation of many seamounts offshore Eastern Tasmania. It will also address the evolution of the Tasman Seaway, a critical component in the onset of the Antarctic Circumpolar Current. This work will utilise marine geological data to resolve these outstanding tectonic and oceanographic questions. Funded by: CSIRO-Commonwealth Scientific & Industrial Research Organisation - Grant-Marine National Facility; University of Tasmania.
GRANT
How the complexity of continental breakup controls ocean circulation
Australian Research Council14 Jul 2018 - 30 Jun 2022
People funded by this grant: Whittaker J, Williams S, Gaina C, Munday D, Brune S
Project Total: $446,340; Funded by: Australian Research Council - Grant-Discovery Projects ($446,340); University of Tasmania.
GRANT
East Tasman Plateau - Key to unravelling the onset of the Antarctic Circumpolar Current
CSIRO-Commonwealth Scientific & Industrial Research Organisation17 Aug 2016 - 22 Aug 2016
People funded by this grant: Whittaker J, Carey R, Halpin J, Williams S, Daczko N
Project Total: $682,868; This frontier work will address first-order geoscientific questions on the evolution of the Tasman Seaway, a critical component in the onset of the Antarctic Circumpolar Current. Today, this current helps keep Antarctica cool, but its onset and role in stabilising icesheets on Antarctica remains controversial. This work will utilise marine geological data to resolve these outstanding tectonic and oceanographic questions around the evolution of key changes in past climatic and oceanographic conditions. Funded by: CSIRO-Commonwealth Scientific & Industrial Research Organisation - Grant-Marine National Facility; University of Tasmania.
GRANT
The Perth Abyssal Plain: Understanding Eastern Gondwana Break-up
CSIRO-Commonwealth Scientific & Industrial Research Organisation1 Nov 2011 - 20 Nov 2011
People funded by this grant: Whittaker J, Halpin J, Muller D, Daczko N, Williams S
Project Total: $0; This project will characterise the poorly known Perth Abyssal Plain passive margin by collecting new magnetic anomaly tracks from the oceanic crust and directly sampling rifted continental fragments such as the Dirck Hartog Ridge, Batavia Knoll and Gulden Draak Ridge. The new magnetic anomaly data will enable resolution of the controversial seafloor spreading history of the Perth Abyssal Plain, where currently there are two competing interpretations. This revised reconstruction will enable the development of regionally consistent plate reconstructions resolving the current poor fit between India, Australia and Antarctica. Geochronology and geochemistry on dredged samples will determine the affinity of these rocks for the first time, characterising the key tectonic features offshore southwest Australia. Funded by: CSIRO-Commonwealth Scientific & Industrial Research Organisation - Grant-Marine National Facility; University of Tasmania.