14:00 MCS2068 StatLam Ho (Dalhousie University): Efficient Bayesian Methods for Detecting Trajectory Shifts in Stochastic Models of Infectious Disease
Venue: MCS2068
15:00 MCS2068 StatDenise Lievesley (University of Oxford): Protecting the integrity of official statistics
Venue: MCS2068
12:00 MJC2006 ApplCath Noakes (Durham): Creating an Infection Resilient Environment
Modelling is an important strategy for understanding the factors that influence risks. Simple models such as the Wells-Riley approach are widely used to make the case for interventions such as ventilation. However, transmission involves a complex chain of events that such models struggle to capture. The transmission process is determined by spatial and transient interactions of physics, biology and chemistry as well as human behaviours. Measuring real-world infection outcomes is challenging, and even where it is possible, it is difficult to unpick the relative importance of different components.
Despite all of this complexity, policy makers and practitioners need evidence that can be easily translated into advice. This talk considers how we can model the processes involved in transmission, where we have evidence and where there are gaps. It considers the challenge of trading off simple advice with complex realities and explores how much we can provide effective and practical protection from transmission in the built environment.
Professor Cath Noakes OBE is the Deputy Pro Vice Chancellor Research and Innovation and Professor of Environmental Engineering for Buildings at the University of Leeds, UK. She is a chartered engineer with substantial experience leading research into buildings and health, particularly around ventilation, air quality and infection control. She has worked closely with policy particularly during the COVID-19 pandemic, including contributing to UK SAGE committee, NHS guidance on healthcare environments, WHO groups, and work with the Royal Academy of Engineering.
Venue: MJC2006
Click on title to see abstract.
Back to Homepage
These events are hosted in and/or organised by members of the Department (follow links for details):
Sep 09--11 [tba] Durham Symposium: Mathematical Approaches to Spatial Biology
Click on series to expand.
Back to Homepage
Contact: arthur.lipstein@durham.ac.uk
No upcoming seminars have been scheduled (not unusual outside term time).
Usual Venue: MCS2068
Contact: yohance.a.osborne@durham.ac.uk
No upcoming seminars have been scheduled (not unusual outside term time).
Usual Venue: MCS3070
Contact: andrew.krause@durham.ac.uk
Jul 22 12:00 Cath Noakes (Durham): Creating an Infection Resilient Environment
Modelling is an important strategy for understanding the factors that influence risks. Simple models such as the Wells-Riley approach are widely used to make the case for interventions such as ventilation. However, transmission involves a complex chain of events that such models struggle to capture. The transmission process is determined by spatial and transient interactions of physics, biology and chemistry as well as human behaviours. Measuring real-world infection outcomes is challenging, and even where it is possible, it is difficult to unpick the relative importance of different components.
Despite all of this complexity, policy makers and practitioners need evidence that can be easily translated into advice. This talk considers how we can model the processes involved in transmission, where we have evidence and where there are gaps. It considers the challenge of trading off simple advice with complex realities and explores how much we can provide effective and practical protection from transmission in the built environment.
Professor Cath Noakes OBE is the Deputy Pro Vice Chancellor Research and Innovation and Professor of Environmental Engineering for Buildings at the University of Leeds, UK. She is a chartered engineer with substantial experience leading research into buildings and health, particularly around ventilation, air quality and infection control. She has worked closely with policy particularly during the COVID-19 pandemic, including contributing to UK SAGE committee, NHS guidance on healthcare environments, WHO groups, and work with the Royal Academy of Engineering.
Venue: MJC2006
Usual Venue: MCS2068
Contact: herbert.gangl@durham.ac.uk
No upcoming seminars have been scheduled (not unusual outside term time).
Usual Venue: OC218
Contact: mohamed.anber@durham.ac.uk
For more information, see HERE.
No upcoming seminars have been scheduled (not unusual outside term time).
Usual Venue: MCS0001
Contact: inaki.garcia-etxebarria@durham.ac.uk,sunil.chhita@durham.ac.uk
No upcoming seminars have been scheduled (not unusual outside term time).
Usual Venue: MCS0001
Contact: alpar.r.meszaros@durham.ac.uk
No upcoming seminars have been scheduled (not unusual outside term time).
Usual Venue: MCS3052
Contact: andrew.krause@durham.ac.uk
No upcoming seminars have been scheduled (not unusual outside term time).
Usual Venue: MCS3070
Contact: daniel.n.disney@durham.ac.uk
No upcoming seminars have been scheduled (not unusual outside term time).
Usual Venue: MCS2068
Contact: martin.p.kerin@durham.ac.uk
No upcoming seminars have been scheduled (not unusual outside term time).
Usual Venue: MCS3070
Contact: mendel.t.nguyen@durham.ac.uk
No upcoming seminars have been scheduled (not unusual outside term time).
Usual Venue: MCS0001
Contact: p.e.dorey@durham.ac.uk,enrico.andriolo@durham.ac.uk,tobias.p.hansen@durham.ac.uk
No upcoming seminars have been scheduled (not unusual outside term time).
Usual Venue: MCS2068
Contact: tyler.helmuth@durham.ac.uk,oliver.kelsey-tough@durham.ac.uk
No upcoming seminars have been scheduled (not unusual outside term time).
Usual Venue: MCS2068
Contact: michael.r.magee@durham.ac.uk
No upcoming seminars have been scheduled (not unusual outside term time).
Usual Venue: MCS3070
Contact: joe.thomas@durham.ac.uk
No upcoming seminars have been scheduled (not unusual outside term time).
Usual Venue: MCS2068
Contact: hyeyoung.maeng@durham.ac.uk,andrew.iskauskas@durham.ac.uk
Jul 21 14:00 Lam Ho (Dalhousie University): Efficient Bayesian Methods for Detecting Trajectory Shifts in Stochastic Models of Infectious Disease
Venue: MCS2068
Jul 21 15:00 Denise Lievesley (University of Oxford): Protecting the integrity of official statistics
Venue: MCS2068
Contact: adam.stone2@durham.ac.uk
No upcoming seminars have been scheduled (not unusual outside term time).
These link to some of the special events hosted by the Department: