Secure and Resilient Societies
Our transdisciplinary research helps create and maintain the integrated social, technical, economic, and political systems that enable societies to be secure and resilient. Our expertise combines technical disciplines across the engineering, physical and natural sciences with the breadth of specialisms within social sciences and resource management. Working with stakeholders ranging from community groups to NGOs, and government departments to NATO, our research drives solutions and informs policies to deliver far-reaching impact.
Disaster risk management
The unprecedented urban growth - and inequalities that urbanisation exposes - places cities at the frontline of global disaster risk.
Our interdisciplinary research contributes to the development and operation of cities in a more resilient and sustainable way, through enhancing the understanding of hazards and threats and working together with communities and decision makers who manage, work and live in cities.
Taking a holistic, multi-hazard and multi-stakeholder approach to disasters, we focus on resilience to shocks as well as slow-onset disasters. Our research activities also relate to changing environments and infrastructure.
UNESCO Chair in Informatics and Multi-hazard Risk Reduction
Directed by Professor Qiuhua Liang, the Chair aims to advance multi-disciplinary knowledge and harness nascent computing and data technologies to develop methodologies and tools and, enhance global research capacity to better manage multi-hazard risks.
Defence and security
Research includes science and engineering technological contributions to capabilities, human and sociological aspects of defence capability, and systems integration expertise to support the multi-faceted needs of the defence and security sector.
This is increasingly important as societal security relies on protection provided by civil authorities and other agencies, and the boundaries between military and civilian protection are progressively more blurred.
Gold standard for CBRN resilience
We led a pan-European, interdisciplinary project, exploring ways to improve civil preparedness in case of a catastrophic chemical, biological, radioactive, or nuclear (CBRN) incident. Funded through with the Horizon2020 programme, the multi-million-pound TOXI-Triage project created new tools for detection, traceability, triage and individual monitoring of victims, amidst the immediate chaos, with the goal of transforming the way emergency services across the world tackle a CBRN incident.
Population resilience
Across the globe, societies, economies, and both built and physical environments are constantly being changed in profound ways, with populations under threat from new and adverse challenges.
Our cutting-edge research advances understandings of how and why certain populations are more resilient to change, and in some cases can respond to the opportunities that change may bring.
Child First Justice
We have led the research evidence-base for the ‘Child First’ principle – the foundation of a progressive approach to how children should be understood, treated, and supported when they come to the attention of the Youth Justice System. Prioritising their best interests rather than treating them as offenders, enhances their social inclusion. In turn, those children, are empowered to make positive contributions to society, to desist from offending, leading to safer communities and fewer victims.