Dr John Douglas

Strathclyde Chancellor's Fellow

Civil and Environmental Engineering

Personal statement

Welcome to my university webpages.

I am a Chancellor’s Fellow (Lecturer) in the Centre for Intelligent Infrastructure within the Department of Civil and Environmental Engineering. My principal research interests are improving hazard and risk evaluations for natural perils, in particular earthquakes (engineering seismology and earthquake engineering). Through various knowledge exchange activities (including consultancies) I seek to apply my skills in practice, e.g. as an expert within seismic hazard assessments for high-value infrastructure. My teaching and administrative responsibilities include being departmental exchange coordinator.

I completed my PhD in engineering seismology in 2001 at Imperial College London, following a BSc. Hons (first class) in Mathematics also at Imperial College London. Following two years as a post-doctoral researcher at Imperial, I was a senior engineering seismologist at BRGM (French Geological Survey) from 2004 until 2015 during which time I was involved in research, public service and commercial projects in many aspects of risk evaluation for various natural perils. From 2009 to 2014 I was a visiting professor at the Earthquake Engineering Research Centre, University of Iceland.

Please visit the Expertise tab for a list of my research interests and the Research tab, the Teaching tab and the Publications tab to obtain more details. An summary on the importance of my research for earthquake risk reduction can be read on Science Trends, a recent presentation on my research is available for view here and some introductory slides are available for free download from figshare. A recent open-access article on site response analyses for "non-stantard" sites is available for free download here.

Please feel free to contact me if you are interested in research or knowledge exchange (e.g. consultancy or Knowledge Exchange Partnerships) collaborations. I am particularly interested to hear from fully-funded students interested in doing a PhD under my supervision and PhD holders looking to apply for post-doctoral fellowships (e.g. Marie Skłodowska-Curie Individual Fellowships , Newton International Fellowships or Royal Academy of Engineering Research Fellowships). Before contacting me about PhDs please consult this page concerning applications ("How can I apply?" tab) and fees ("Fees & funding tab). Information on potential scholarships is available on this page (select "Postgraduate Research" in the "Level of study" drop-down menu).

Expertise

Has expertise in:

Prizes and awards

Young Researcher Prize (Prix du Jeune Chercheur)
Recipient
9/2011

more prizes and awards

Qualifications

1998 BSc. Hons Mathematics with Applied Maths/Mathematical Physics, University of London (Imperial College), First Class.

2001 Ph.D. Civil and Environmental Engineering (Engineering Seismology), University of London (Imperial College). Thesis available here. (Supervisor: Prof. N. N. Ambraseys)

2010 Habilitation à diriger des recherches (accreditation to supervise research) Earth Sciences (Seismology), University of Grenoble, France. Report available here.

2018 Postgraduate Diploma Leaning and Teaching in Higher Education, University of Strathclyde, Glasgow.

Publications

Comparison of methods to develop risk-targeted seismic design maps
Gkimprixis Athanasios, Tubaldi Enrico, Douglas John
Bulletin of Earthquake Engineering Vol 17, pp. 3727-3752 (2019)
https://doi.org/10.1007/s10518-019-00629-w
An accessible approach for the site response analysis of quasi-horizontal layered deposits
Volpini Carolina, Douglas John
Bulletin of Earthquake Engineering Vol 17, pp. 1163–1183 (2019)
https://doi.org/10.1007/s10518-018-0488-4
Guidance on conducting 2D linear viscoelastic site response analysis using a finite element code
Volpini Carolina, Douglas John, Nielsen Andreas Hvidtfelt
Journal of Earthquake Engineering (2019)
https://doi.org/10.1080/13632469.2019.1568931
Comparison of soil nonlinearity (in situ stress-strain relation and G/Gmax reduction) observed in strong-motion databases and modeled in ground-motion prediction equations
Guéguen Philippe, Bonilla Fabian, Douglas John
Bulletin of the Seismological Society of America Vol 109, pp. 178-186 (2019)
https://doi.org/10.1785/0120180169
Probabilistic seismic hazard assessment for a new-build nuclear power plant site in the UK
Tromans Iain J, Aldama-Bustos Guillermo, Douglas John, Lessi-Cheimariou Angeliki, Hunt Simon, Davi Manuela, Musson Roger M W, Garrard Graham, Strasser Fleur O, Robertson Colin
Bulletin of Earthquake Engineering Vol 17, pp. 1-36 (2019)
https://doi.org/10.1007/s10518-018-0441-6
A streamlined approach for the seismic hazard assessment of a new nuclear power plant in the UK
Aldama-Bustos Guillermo, Tromans Iain J, Strasser Fleur, Garrard Graham, Green Guy, Rivers Liz, Douglas John, Musson Roger M W, Hunt Simon, Lessi-Cheimariou Angeliki, Davi Manuela, Robertson Colin
Bulletin of Earthquake Engineering Vol 17, pp. 37-54 (2019)
https://doi.org/10.1007/s10518-018-0442-5

more publications

Teaching

Departmental exchange (Erasmus and international) advisor

CL329/CL332 Engineering Mathematics (Statistics), Year 3, 10 credits/5 ECTS, Semester 2 (sole lecturer)

CL931/CL986/CL939 Qualitative And Quantitative Research Methods, MSc., 10 credits/5 ECTS, Semester 1 (contributing lecturer)

CL448 Individual Project, Year 4, 30 credits/15 ECTS, Semesters 1 and 2 (project advisor)

CL516 MEng Dissertation, 20 credits/10 ECTS, Semesters 1 and 2 (project advisor)

CL944/CL980 MSc dissertation, 60 credits/30 ECTS, Summer period (project advisor)

Research interests

To evaluate the potential impact of a natural peril (e.g. an earthquake) it is necessary to consider the following three aspects:

  • hazard (e.g. how the ground shakes during an earthquake);
  • vulnerability (e.g. how a building responds to this shaking); and
  • exposure (e.g. how many of these buildings are in the zone of interest).

The combination of these three factors provides an estimate of the risk, which expresses the chance that a certain undesirable event (e.g. building collapse) may occur. It is important to distinguish between the hazard, which cannot be altered, and the risk, which can be reduced (mitigated) by lowering the vulnerability and exposure of the building stock as well as increasing the resilience of the community.

My research aims to improve earthquake risk evaluation for engineering purposes, in particular through the characterisation and, ideally, reduction of uncertainties in seismic hazard assessments. It is important that the hazard be neither over- nor under-estimated. Examples of the latter are dramatically displayed by damage to buildings that were constructed in accordance with the expected ground motion in the region. An over-estimated hazard leads to higher construction costs for seismic resistance, which consumes resources that could be better spent tackling other problems.

My research addresses various UN Sustainable Development Goals (SDGs), in particular SDG 9 'Build resilient infrastructure, promote inclusive and sustainable industrialization and foster innovation'  and SDG 11 'Make cities and human settlements inclusive, safe, resilient and sustainable', as well as the challenges highlighted in the UK Strategy for the Global Challenges Research Fund, in particular 'resilience and action on short-term environmental shocks and long-term environmental change' and 'sustainable cities and communities'. I wrote a crowdsourced brief on these topics in 2015.

I am particularly interested in problems related to hazard and risk assessments for the energy  sector. For example, high-importance power facilities such as nuclear power plants must consider the impact of earthquakes (e.g. recent consultancy concerning Hinkley Point C, also see this journal article on the overall approach and this one for details). Another research focus is induced seismicity from projects in the geothermal and oil and gas sectors.

As an engineering seismologist, one of my main interests is improving ground-motion prediction, i.e. providing better models of the shaking to expect at a site given a particular earthquake at a certain distance. Such models are a basis of seismic hazard assessment. I maintain a compendium of published models, which now number many hundreds. A recent article on capturing epistemic uncertainties within ground-motion models has recently been published in association with my Theme Lecture at the 16th European Conference on Earthquake Engineering in June 2018.

Professional activities

XVIII ANIDIS Conference
Participant
16/9/2019
XVIII ANIDIS Conference
Member of programme committee
15/9/2019
SECED 2019 Conference
Member of programme committee
9/9/2019
Member of Examination Committee for PhD of Sebastian Specht
External Examiner
7/2019
ISET Journal of Earthquake Technology (Journal)
Peer reviewer
7/2019
External examiner (opponent) for the PhD viva of Tim Sonneman
External Examiner
25/6/2019

more professional activities

Projects

Towards more Earthquake-resilient Urban Societies through a Multi-sensor-based Information System enabling Earthquake Forecasting, Early Warning and Rapid Response Systems (TURNKEY)
Douglas, John (Principal Investigator) Perry, Marcus (Co-investigator) Tubaldi, Enrico (Co-investigator) Zonta, Daniele (Co-investigator)
01-Jan-2019 - 31-Jan-2022
Consultancy for Fircroft
Douglas, John (Principal Investigator)
Reviewer of the ground-motion prediction part of the Groningen induced seismicity risk assessment
06-Jan-2015 - 28-Jan-2015

more projects

Address

Civil and Environmental Engineering
James Weir Building

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