Identifying the goals and strategies people use to make others feel worse. This project aims to identify the goals and strategies people use to make others feel worse, the situation factors affecting goal formation, and the relative impact of different strategies. The project will develop a novel theoretical framework by applying emotion regulation theory a new area (worsening others' emotions), testing predictions through intensive longitudinal methods, experimental studies and a cross-national ....Identifying the goals and strategies people use to make others feel worse. This project aims to identify the goals and strategies people use to make others feel worse, the situation factors affecting goal formation, and the relative impact of different strategies. The project will develop a novel theoretical framework by applying emotion regulation theory a new area (worsening others' emotions), testing predictions through intensive longitudinal methods, experimental studies and a cross-national comparison of 15+ countries. Expected outcomes include new knowledge of the universal psychological processes that underpin aversive interactions, enhanced capacity for international collaboration, and policy guidance. Benefits include the potential to improve programs to decrease workplace bullying and domestic violence.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE230101223
Funder
Australian Research Council
Funding Amount
$336,318.00
Summary
Using metacognitive self-evaluation to improve knowledge transfer. The knowledge and skills developed in the classroom often do not transfer to the workplace or even to other subjects at school. This project aims to evaluate how the transfer of knowledge can be enhanced by prompting students to evaluate and reflect on their performance in specific ways. The project will identify how different students respond to self-evaluation and how self-evaluation can most effectively be designed and applied ....Using metacognitive self-evaluation to improve knowledge transfer. The knowledge and skills developed in the classroom often do not transfer to the workplace or even to other subjects at school. This project aims to evaluate how the transfer of knowledge can be enhanced by prompting students to evaluate and reflect on their performance in specific ways. The project will identify how different students respond to self-evaluation and how self-evaluation can most effectively be designed and applied in the classroom. Newly developed self-evaluation prompts will be implemented in a computerised and adaptive way so that self-evaluation is tailored to a particular student. This project should provide a scalable and cost-effective way to help students apply what they learn in a more flexible and efficient way. Read moreRead less
Model reduction of open markov quantum systems: theory and algorithms. This project will advance international efforts in quantum technology research by developing methods and tools to find simpler lower complexity models for certain photonic (light based) devices for information processing. Such simplification methods can critically reduce the complexity of designing complex technologies based on these devices.
Stabilisation of nonlinear quantum feedback control systems. One of the most exciting technological developments of this century promises to be the development of quantum technology. Quantum feedback systems will play a key part of this technology and this project will develop the underlying fundamental theory which will be crucial to the systematic design of quantum feedback control systems.
Consensus-based theory of robust and resilient distributed estimation. The invention of cheap sensors, programmable microcontrollers and fast wireless communication protocols has created new opportunities for distributed monitoring and control of resources in many technological areas vital for Australia. The project will develop the fundamental theory which will underpin cutting edge technologies in those areas.
Coherent Feedback Synchronisation and Stabilisation of Quantum Systems. The aim of this project is to address a range of fundamental problems of stabilisation and coherent synchronisation in quantum feedback control systems, leading to new systematic methods of designing controllers for the interacting quantum systems arising in emerging areas of quantum technology. Quantum feedback control systems will be at the heart of emerging areas of quantum technology and stability is essential for their ....Coherent Feedback Synchronisation and Stabilisation of Quantum Systems. The aim of this project is to address a range of fundamental problems of stabilisation and coherent synchronisation in quantum feedback control systems, leading to new systematic methods of designing controllers for the interacting quantum systems arising in emerging areas of quantum technology. Quantum feedback control systems will be at the heart of emerging areas of quantum technology and stability is essential for their operation. Standard control system methods do not take into account the special features of quantum systems and there is a need for new control theories that deal with stabilisation and synchronisation as quantum technologies become more advanced. Read moreRead less
Geometric variational problems and nonlinear partial differential systems. We will investigate several important problems on non-linear partial differential systems, bridging analysis, differential geometry and mathematical physics. Harmonic maps are the prototype of maps minimizing the Dirichlet energy. The liquid crystal configuration generalizes the harmonic map with values into two dimensional spheres. The Yang-Mills equations originated from particle physics. We will make fundamental contri ....Geometric variational problems and nonlinear partial differential systems. We will investigate several important problems on non-linear partial differential systems, bridging analysis, differential geometry and mathematical physics. Harmonic maps are the prototype of maps minimizing the Dirichlet energy. The liquid crystal configuration generalizes the harmonic map with values into two dimensional spheres. The Yang-Mills equations originated from particle physics. We will make fundamental contributions to these topics: Regularity problem and energy minimality of weakly harmonic maps, Weak solutions of the liquid crystal equilibrium system, Yang-Mills heat flow and singular Yang-Mills connections.
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Singular phenomena for nonlinear partial differential equations arising in applications. The development of nonlinear Partial Differential Equations (PDEs) in Australia is recognized worldwide through the outstanding contributions of mathematicians from the ANU, University of Sydney and other top Australian Universities. This project undertakes research in the PDEs field and follows directions of very current interest at an international level. Beyond the ANU, the project will enhance expertise ....Singular phenomena for nonlinear partial differential equations arising in applications. The development of nonlinear Partial Differential Equations (PDEs) in Australia is recognized worldwide through the outstanding contributions of mathematicians from the ANU, University of Sydney and other top Australian Universities. This project undertakes research in the PDEs field and follows directions of very current interest at an international level. Beyond the ANU, the project will enhance expertise in Australia in very active areas of mathematics research related to applications in physics, biology and other applied disciplines. Moreover, it will foster collaboration with mathematicians of international standing from Australia and abroad. Read moreRead less
A New Approach to Sampled-Data Control Design for Nonlinear Systems. This project aims to exploit new sampling and sampled-data modelling insights to bridge the continuous/sampled-data gap in the control of nonlinear systems. The goal is to investigate the impact of these insights on the control design problem and provide a new class of digital control laws for continuous time non-linear systems.
Robust control of power electronics and drives: a synthesis of traditional and model predictive control approaches. This project aims to generate high-performance strategies for the control of power converters. Through the combination of traditional and modern approaches, the project will develop methods which are more reliable and give better energy efficiency than current state of the art techniques.