Sort by
Refine Your Search
-
Listed
-
Category
-
Program
-
Field
- Medical Sciences
- Computer Science
- Engineering
- Economics
- Science
- Materials Science
- Business
- Education
- Earth Sciences
- Law
- Mathematics
- Arts and Literature
- Linguistics
- Biology
- Chemistry
- Philosophy
- Sports and Recreation
- Humanities
- Electrical Engineering
- Social Sciences
- Environment
- Psychology
- 12 more »
- « less
-
of learnt features in deep neural networks. Specifically, we aim to: • Develop methodologies to interpret and visualize the features learnt by neural networks in a human-understandable manner. • Investigate
-
fungus Erysiphe necator . This information will contribute to the development of effective monitoring strategies and to extend the useful lifetime of DMI fungicides. Part of the project will focus
-
proactive measures such as developing resilience towards cyberbullying. On the other hand, since cyber-bullying occurs in the context of a relationship between a perpetrator and the victim, there must be
-
will explore the impact of sour gases like H2S and vapor Mercury on corrosion in the oil and gas industry, focusing on developing prevention strategies. Student type Future Students Faculties and centres
-
in a full-time program of research consistent with the objectives of Tour de Cure, leading to the awarding of a PhD or equivalent research doctorate. Applicants must be current holders of a PhD
-
and assessment of CVI in children with cerebral palsy. Objectives 1. Develop protocol for screening for CVI in young children with cerebral palsy 2. Evaluate the efficacy of CVI assessments in
-
scenarios in comparison to actual match play in Australian Hockey match play. Additionally, the aim is to develop a comprehensive learning design framework tailored for elite Australian hockey, taking
-
developed, low income and small island developing countries, who are on the edge of climate crisis, have historically little to no contribution to climate crisis, but must accept the carbon pricing set
-
available at the Centre for Optimisation and Decision Science at Curtin University. The research will focus on developing robust adaptive techniques for solving complex problems in mathematical physics
-
of microbial biofilms, extrapolymeric substances and metabolic activities under a range of substrate conditions. This project aims to significantly advance the current perceptions and knowledge by developing new