Research Associate/Fellow - White Matter Computation: Utilising Axonal Delays to Sculpt Network Attractors
Research Associate/Fellow - White Matter Computation: Utilising Axonal Delays to Sculpt Network Attractors
University of Nottingham
Nottingham, United Kingdom
We are looking for a researcher, whose expertise lies in numerical methods for dynamical systems, to work with Dr Rachel Nicks and Professor Stephen Coombes on a Leverhulme Trust - funded project entitled “White Matter Computation: Utilising axonal delays to sculpt network attractors”. The central aim of the project is to determine how dynamic patterns of neural activity evolve in a complex network of time-delayed neural interactions and how modifications to these delays, based on novel models for the plasticity of the brains white matter, can subserve computations. The researcher is expected to focus on computational aspects of the project, in particular the creation of numerical bifurcation tools for the investigation of strongly coupled networks with multiple state-dependent delays.
You will be able to carry out duties to the highest standard and to evidence how through your experience you will:
- Undertake original research of international excellence;
- Develop research objectives and proposals for own and/or collaborative research area;
- Prepare papers for publication in leading journals and/or contribute to the dissemination at national/international conferences, workshops and meetings resulting in successful research outputs;
- Identify opportunities and assist in writing bids for research grant applications. Prepare proposals and applications to both external and/or internal bodies for funding, contractual or accreditation purposes.
We are looking for a confident, organised researcher who can evidence:
- A PhD, or equivalent in mathematics or a relevant branch of mathematics, engineering, physics or a closely related discipline;
- OR near to completion of a PhD (Note: thesis must have been submitted prior to start of post);
- Expert knowledge of at least one of the following areas:
- Network dynamical systems;
- Numerical bifurcation analysis;
- Delay differential equations.
- An ability to produce research of high quality in Applied Dynamical Systems or closely related discipline;
- Excellent communication and organisational skills;
- The ability to work independently and as part of a multidisciplinary and multicultural team;
- Networking, actively engaging with and valuing other areas and diverse groups.
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