Apologies for cross postings:

This is a reminder that the Environmental Statistics Section of the Royal 
Statistical Society are organising a meeting next week on

SPATIAL RESOLUTION ENHANCEMENT FOR ENVIRONMENTAL DATA

Date: 24th October 2006
Time: 11:30-17:30 (lunch 13:00-14:00, tea break 15:30-16:00)
Place: The Royal Statistical Society, 12 Errol Street, London EC1Y 8LX (see 
http://www.rss.org.uk/main.asp?page=1759 for location information)

Summary: Many environmental problems require data at a finer spatial 
resolution than is routinely available. The meeting will look at methods 
for resolution enhancement in different areas of environmental science, and 
is held in association with the RAINMAP network 
(http://www.rainmap.rl.ac.uk/). Lunch will be provided.

Registration: There will be a registration fee to cover the cost of lunch 
and speakers’ expenses. Fees are as follows: RSS Fellows £20, Student 
Fellows £15, CStats/GradStats £17.50, all others £25. Registration forms 
may be obtained from the web page for the meeting: 
http://www.rss.org.uk/main.asp?page=1321&event=320.


The programme is as follows (abstracts can be found below):

11:30 Alfred Stein (ITC International Institute for Geoinformation Science 
and Earth Observation, Enschede, the Netherlands): "A general statistical 
perspective on issues of spatial scale and some applications"

12:15 David Rogers (Oxford University): "BigSmall: refining species' and 
risk-map predictions from data recorded at large area units"

13:00-14:00	Lunch

14:00 Mike Christie (Heriot-Watt University): "Determining subgrid error in 
computational models for porous media flows"

14:45 Rob Wilby (Environment Agency of England and Wales): "Statistical 
downscaling in practice: Recent applications and future directions"

15:30-16:00 	Tea

16:00 Erasmo Buonomo (Hadley Centre, Met Office): "Statistical and 
dynamical downscaling of climate model projections"

16:45 Christian Onof (Imperial College) and Nadja Leith (UCL): "Subdaily 
precipitation downscaling for hydrology"

17:30		Close

ABSTRACTS OF PRESENTATIONS
--------------------------

Alfred Stein (ITC International Institute for Geoinformation Science and 
Earth Observation, Enschede, the Netherlands): A general statistical 
perspective on issues of spatial scale and some applications

Abstract: Scales in space and time are addressed from a resolution 
perspective. Both spatial interpolation and simulation tools are 
considered. Different approaches lead to a probabilistic interpretation of 
downscaled values. Applications include studies from soil science, geodesy, 
agriculture and environmental modeling.


David Rogers (Oxford University): BigSmall: refining species' and risk-map 
predictions from data recorded at large area units

Abstract: This talk looks at two examples of refining distribution 
predictions using satellite imagery applied to field data collected or 
recorded only from large area units. The first example concerns bird 
distributions in Uganda where a degree grid scale database is used to make 
bird species' risk maps at satellite image resolution; the results look 
reasonable, but have not yet been independently tested. The second example 
concerns epidemiological data often recorded at administrative unit level; 
a dataset with locational records was artificially made into an admin. 
level database. The resulting predictions could therefore be tested against 
the original data.


Mike Christie (Heriot-Watt University): Determining subgrid error in 
computational models for porous
media flows

Abstract:  Determining the impact of sub-grid phenomena is important for 
many areas of computational physics. This is particularly true for inverse 
problems and Bayesian inference.  The standard approach, as described for 
example in Kennedy and O'Hagan (2001), assumes unknown model errors that 
are independent of the unknown parameters in the model and estimates them 
as part of the inference problem. In this talk, we describe the use of 
separate computational experiments to determine the errors for an example 
porous media flow problem.  By running separate computational experiments, 
we are able to determine the variation of model errors with model 
parameters as well as the independent variables in the problem.


Rob Wilby (Environment Agency of England and Wales): Statistical 
downscaling in practice: Recent applications and future directions

Abstract: After more than a decade of research activity the theoretical 
strengths and weaknesses of statistically downscaling climate change 
scenarios are now well understood. Technical issues, such as the choice of 
predictor variables, transfer function(s), downscaling domain and treatment 
of extremes, have been thoroughly explored through major international 
projects. In contrast, examples of practical applications of statistical 
downscaling to decision-making and adaptation are comparatively rare. This 
presentation provides recent examples of how statistical downscaling is 
being applied in practice to water sector adaptation measures. The case is 
made for a greater emphasis on applied investigations, to help inform 
adaptation responses, and to shape guidance for planners. Future research 
priorities will be outlined, including the urgent need for tools to 
facilitate the rapid production of regional climate change information, the 
treatment of key sources of uncertainty, and links to emerging 
probabilistic frameworks.


Erasmo Buonomo (Hadley Centre, Met Office): Statistical and dynamical 
downscaling of climate model projections

Abstract: Atmospheric-ocean general circulation models (AOGCM) are the 
standard tools to produce global climate projection on the decadal and 
centennial timescales. However, the horizontal resolution of these models, 
usually ~100km, is not sufficient to the end users of climate simulations. 
The statistical and dynamical approaches to downscale the global climate 
information to provide information at local scale (~1-10km) will be 
presented at the meeting.


Christian Onof (Imperial College) and Nadja Leith (UCL): Subdaily 
precipitation downscaling for hydrology

Abstract: Many hydrological applications require precipitation data at a 
fine spatial and temporal scale. This talk will describe work on the use of 
climate model outputs at coarse spatial and temporal resolution to 
condition simulations of subdaily rainfall sequences at individual sites, 
incorporating scenarios of climate change. Techniques based on generalised 
linear models will be discussed, along with stochastic models based on 
Poisson cluster process. The two model classes are coupled using stable 
relationships between the properties of observed rainfall sequences at 
different time scales.

=====================================================================
			Richard E. Chandler
			^^^^^^^^^^^^^^^^^^^
Room 135, Dept of Statistical Science, University College London,
1-19 Torrington Place, London WC1E 6BT, UK
Tel: +44 (0)20 7679 1880		Fax: +44 (0)20 7383 4703

Internet: http://www.ucl.ac.uk/Stats       		(department)
           http://www.homepages.ucl.ac.uk/~ucakarc	(personal)
email:    [log in to unmask]
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