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REF impact found 23 Case Studies

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Remote-sensing tools for rapid and cost-effective forest management

Summary of the impact

DU researchers have developed new algorithms and statistical models with which to make precise quantitative assessments of forest cover and forest attributes over small or large areas using satellite remote-sensing data, either alone or in combination with airborne or ground-based laser scanning. This research underpins the use of remote sensing as a cost-effective tool for aspects of forest resource management, planning, and policy compliance in many countries. Users include government agencies in the UK, Sweden, New Zealand and Guyana, and international forestry consultancy companies based in Finland with regional branches in New Zealand. DU researchers have also used these methods to help verify the Guyana government's entitlement to $250m under a UN initiative for avoidance of CO2 emissions.

Submitting Institution

University of Durham

Unit of Assessment

Geography, Environmental Studies and Archaeology

Summary Impact Type

Environmental

Research Subject Area(s)

Environmental Sciences: Environmental Science and Management
Agricultural and Veterinary Sciences: Forestry Sciences
Engineering: Geomatic Engineering

Improving data analysis via better statistical infrastructure

Summary of the impact

A generalized additive model (GAM) explores the extent to which a single output variable of a complex system in a noisy environment can be described by a sum of smooth functions of several input variables.

Bath research has substantially improved the estimation and formulation of GAMs and hence

  • driven the wide uptake, outside academia, of generalized additive models,
  • increased the scope of applicability of these models.

This improved statistical infrastructure has resulted in improved data analysis by practitioners in fields such as natural resource management, energy load prediction, environmental impact assessment, climate policy, epidemiology, finance and economics. In REF impact terms, such changes in practice by practitioners leads ultimately to direct economic and societal benefits, health benefits and policy changes. Below, these impacts are illustrated via two specific examples: (1) use of the methods by the energy company EDF for electricity load forecasting and (2) their use in environmental management. The statistical methods are implemented in R via the software package mgcv, largely written at Bath. As a `recommended' R package mgcv has also contributed to the global growth of R, which currently has an estimated 1.2M business users worldwide [A].

Submitting Institution

University of Bath

Unit of Assessment

Mathematical Sciences

Summary Impact Type

Economic

Research Subject Area(s)

Mathematical Sciences: Applied Mathematics, Statistics
Economics: Econometrics

Synthetic weather sequences informing engineering design and supporting decisions about infrastructure

Summary of the impact

Research conducted in UCL's Department of Statistical Science has led to the development of a state-of-the-art software package for generating synthetic weather sequences, which has been widely adopted, both in the UK and abroad. The synthetic sequences are used by engineers and policymakers when assessing the effectiveness of potential mitigation and management strategies for weather-related hazards such as floods. In the UK, the software package is used for engineering design; for example, to inform the design of flood defences. In Australia it is being used to inform climate change adaptation strategies. Another significant impact is that UCL's analysis of rainfall trends in southwest Western Australia directly supported the decision of the state's Department of Water to approve the expansion of a seawater desalination plant at a cost of around AUS$450 million. The capacity of the plant was doubled to 100 billion litres per year in January 2013 and it now produces nearly one third of Perth's water supply.

Submitting Institution

University College London

Unit of Assessment

Mathematical Sciences

Summary Impact Type

Environmental

Research Subject Area(s)

Mathematical Sciences: Statistics
Earth Sciences: Atmospheric Sciences

Using Novel Statistical Modelling Techniques to Deliver More Accurate Air Pollution Forecasts

Summary of the impact

Working closely with scientists at the United States Environmental Protection Agency (USEPA), the University of Southampton has developed new methods for space-time modelling that have trebled the accuracy of air pollution forecasts. The USEPA has adopted the research as its official forecasting method to protect the American public and agriculture. More than 19 million children and 16 million adult Americans suffering from respiratory conditions such as asthma now benefit by being able to adjust their outdoor activities based on the forecasts, and improved data has fed into policy debates on carbon emission regulations. Success in the USA has led the EPSRC to fund a similar project in the UK and Australia's national science agency is using Southampton-developed software for its air pollution forecasts.

Submitting Institution

University of Southampton

Unit of Assessment

Mathematical Sciences

Summary Impact Type

Technological

Research Subject Area(s)

Mathematical Sciences: Statistics
Medical and Health Sciences: Cardiorespiratory Medicine and Haematology, Public Health and Health Services

C4 - BUGS (Bayesian inference using Gibbs sampling)

Summary of the impact

The WinBUGS software (and now OpenBUGS software), developed initially at Cambridge from 1989-1996 and then further at Imperial from 1996-2007, has made practical MCMC Bayesian methods readily available to applied statisticians and data analysts. The software has been instrumental in facilitating routine Bayesian analysis of a vast range of complex statistical problems covering a wide spectrum of application areas, and over 20 years after its inception, it remains the leading software tool for applied Bayesian analysis among both academic and non-academic communities internationally. WinBUGS had over 30,000 registered users as of 2009 (the software is now open-source and users are no longer required to register) and a Google search on the term `WinBUGS' returns over 205,000 hits (over 42,000 of which are since 2008) with applications as diverse as astrostatistics, solar radiation modelling, fish stock assessments, credit risk assessment, production of disease maps and atlases, drug development and healthcare provider profiling.

Submitting Institution

Imperial College London

Unit of Assessment

Mathematical Sciences

Summary Impact Type

Technological

Research Subject Area(s)

Mathematical Sciences: Statistics

UOA10-12: Billmonitor: predicting the best mobile phone contract for users

Summary of the impact

Since its launch in 2009, the mobile phone package price comparison tool Billmonitor has identified £35 million worth of savings available to the 110,000 users whose bills have been analysed. It was the first price comparison tool to be accredited by Ofcom and it has been widely praised in the media. Exploiting techniques that they had developed for applications in finance and genetics, University of Oxford researchers Chris Holmes and Nicolai Meinshausen developed the statistical algorithms underpinning the package, which uses simulation-based inference and careful statistical modelling to analyse users' phone bill data. It searches over 2.4 million available packages to identify the best mobile phone deal for each user's particular pattern of usage. Widely quoted in the press, reports in 2011 and 2012 from the Billmonitor team estimated that approximately three quarters of mobile phone customers are on the wrong tariff, with an overspend of around 40%.

Submitting Institution

University of Oxford

Unit of Assessment

Mathematical Sciences

Summary Impact Type

Economic

Research Subject Area(s)

Mathematical Sciences: Statistics
Economics: Econometrics

Statistical methods are helping to control the spread of epidemics

Summary of the impact

In a series of papers from 2003, Gibson (Maxwell Institute) and collaborators developed Bayesian computational methods for fitting stochastic models for epidemic dynamics. These were subsequently applied to the design of control programmes for pathogens of humans and plants. A first application concerns the bacterial infection Clostridium difficile in hospital wards. A stochastic model was developed which was instrumental in designing control measures, rolled out in 2008 across NHS Lothian region, and subsequently adopted across NHS Scotland. Incidence in Lothian reduced by around 65%, saving an estimated £3.5M per annum in treatment and other costs, reducing mortality and improving patient outcomes, with similar impacts elsewhere in Scotland. A second application concerns the spread of epidemics of plant disease in agricultural, horticultural and natural environments. Models developed in collaboration with plant scientists from Cambridge have been exploited by the Department for Environment, Food and Rural Affairs (Defra) and the Forestry Commission under a £25M scheme, initiated in 2009, to control sudden oak death in the UK, and by the United States Department of Agriculture to control sudden oak death in the USA.

Submitting Institutions

University of Edinburgh,Heriot-Watt University

Unit of Assessment

Mathematical Sciences

Summary Impact Type

Health

Research Subject Area(s)

Mathematical Sciences: Statistics

Improving Barclays Bank's management of its exposure to Counterparty Credit Risk

Summary of the impact

In response to the deficiencies in bank risk management revealed following the 2008 financial crisis, one of the mandated requirements under the Basel III regulatory framework is for banks to backtest the internal models they use to price their assets and to calculate how much capital they require should a counterparty default. Qiwei Yao worked with the Quantitative Analyst — Exposure team at Barclays Bank, which is responsible for constructing the Barclays Counterpart Credit Risk (CCR) backtesting methodology. They made use of several statistical methods from Yao's research to construct the newly developed backtesting methodology which is now in operation at Barclays Bank. This puts the CCR assessment and management at Barclays in line with the Basel III regulatory capital framework.

Submitting Institution

London School of Economics & Political Science

Unit of Assessment

Mathematical Sciences

Summary Impact Type

Economic

Research Subject Area(s)

Mathematical Sciences: Statistics
Economics: Applied Economics, Econometrics

Development of an innovative data analysis tool to monitor groundwater pollution and environmental impact

Summary of the impact

With global demand for energy ever increasing, environmental impact has become a major priority for the oil industry. A collaboration between researchers at the University of Glasgow and Shell Global Solutions has developed GWSDAT (GroundWater Spatiotemporal Data Analysis Tool). This easy-to-use interactive software tool allows users to process and analyse groundwater pollution monitoring data efficiently, enabling Shell to respond quickly to detect and evaluate the effect of a leak or spill. Shell estimates that the savings gained by use of the monitoring tool exceed $10m over the last three years. GWSDAT is currently being used by around 200 consultants across many countries (including the UK, US, Australia and South Africa) with potentially significant impacts on the environment worldwide.

Submitting Institution

University of Glasgow

Unit of Assessment

Mathematical Sciences

Summary Impact Type

Technological

Research Subject Area(s)

Mathematical Sciences: Statistics

Health and cost benefits of monitoring infectious diseases using novel statistical methods.

Summary of the impact

Research on novel statistical methods for disease surveillance and influenza vaccine effectiveness has led to the development of a suite of automatic systems for detecting outbreaks of infectious diseases at Health Protection Scotland (HPS). This work has improved the public health response and helped to reduce costs in Scotland and also in the wider UK and EU by providing real-time early warning of disease outbreaks and timely estimates of the effectiveness of the influenza vaccine. This research, commissioned by the Scottish Government, through HPS, and also the UK National Institute for Health Research (NIHR) and the European Centres for Disease Control (ECDC), but used in a wider context by many others, formed the basis for the HPS response to the H1N1 Influenza Pandemic and monitoring of the effects of Influenza Vaccines.

Submitting Institution

University of Strathclyde

Unit of Assessment

Mathematical Sciences

Summary Impact Type

Technological

Research Subject Area(s)

Mathematical Sciences: Statistics
Medical and Health Sciences: Public Health and Health Services

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