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Inferring the evolutionary forces shaping the structure and function of complex network systems

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  • Full or part time
    Dr Tiago de Paula Peixoto
  • Application Deadline
    No more applications being accepted
  • Competition Funded PhD Project (European/UK Students Only)
    Competition Funded PhD Project (European/UK Students Only)

Project Description

An enormous variety of complex systems shares the unifying property that they can be mathematically modelled as a network of interacting elements. Examples of this include social iterations, communication systems, cell metabolism, transportation infrastructure, among many others. Despite the different domains, all these systems can be modelled at their most fundamental level under the same network formalism. With the aim of exploiting this universality, a great deal of transdisciplinary research has been devoted to developing general network models that are valid across different domains.

The aim of this PhD project is to move towards this goal using a specific blend of mathematical modelling and data analysis, based heavily in dynamical systems and statistical inference, and employing a variety of approaches from statistical physics, applied mathematics and machine learning. In particular, the main objectives are:

1. Elaboration of generative models of networks that take into account key evolutionary aspects (e.g. optimization towards robustness under constraints, homophily, incremental growth dynamics), and yield credible descriptors of large-scale network structure (e.g. modular organization, hierarchies and centralization).
2. Development of principled inference methods that can extract model parameters from real-world network data, as well as model selection approaches that can identify the most appropriate generative process based on empirical evidence.
3. Employment of the modelling and inference frameworks to make predictions that generalize from past observations, identify errors and omissions in data, as well as opportunities for architectural improvements.

The combination of these three objectives would yield concrete connections between the structure, function and evolution of network systems, with potential applications as diverse as preventing the outbreak of diseases and traffic jams, discovering new interactions between drugs, and building a censorship-free internet.

Furthermore, the diverse and multidisciplinary nature of the research would give the candidate many options in further pursuing an academic career, as well as opportunities for applications in industry.

The successful candidate should be highly motivated and have a degree in Applied Mathematics, Physics or related fields. Demonstrable familiarity with mathematical modelling as well as computational skills (C/C++ and/or Python) is essential.

The position is for 3.5 years of full-time study and will administratively belong to the Department of Mathematical Sciences at the University of Bath, associated with the Centre for Networks and Collective Behaviour, and will be supervised by Dr. Tiago Peixoto.

Anticipated start date: 2 October 2017.

Applications may close early if a suitable candidate is found; therefore, early application is recommended.

Funding Notes

UK and EU students applying for this project may be considered for a University Research Studentship which will cover Home/EU tuition fees, a training support fee of £1000 per annum and a tax-free maintenance allowance of £14,296 (2016/17 rate) for 3.5 years.

Note: ONLY UK and EU applicants are eligible for the studentship; unfortunately, applicants who are classed as Overseas for fee paying purposes are NOT eligible for funding.

We welcome all-year round applications from self-funded candidates and candidates who can source their own funding.

How good is research at University of Bath in Mathematical Sciences?

FTE Category A staff submitted: 44.40

Research output data provided by the Research Excellence Framework (REF)

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