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Projects: Projects for Investigator
Reference Number EP/E020100/1
Title The classification and analysis of regional building stock characteristics using GIS
Status Completed
Energy Categories Energy Efficiency(Residential and commercial) 50%;
Not Energy Related 50%;
Research Types Basic and strategic applied research 100%
Science and Technology Fields PHYSICAL SCIENCES AND MATHEMATICS (Computer Science and Informatics) 50%;
ENGINEERING AND TECHNOLOGY (Architecture and the Built Environment) 50%;
UKERC Cross Cutting Characterisation Not Cross-cutting 100%
Principal Investigator Professor P Jones
No email address given
Cardiff University
Award Type Standard
Funding Source EPSRC
Start Date 17 September 2007
End Date 16 March 2009
Duration 18 months
Total Grant Value £169,135
Industrial Sectors Construction; Environment
Region Wales
Programme Process Environment and Sustainability
Investigators Principal Investigator Professor P Jones , Architecture, Cardiff University (99.999%)
  Other Investigator Mr DK Alexander , Architecture, Cardiff University (0.001%)
  Recognised Researcher Mr S Lannon , Architecture, Cardiff University (0.000%)
Web Site
Abstract The large scale housing stock survey methods originally developed for the Energy and Environment Prediction (EEP) model have already proven valuable to its users. This model has shown that it can produce considerable financial, energy, and Carbon savings through the targeting of energy efficiency measures appropriate to certain house types. It also allows the user, e.g. a local authority, to target those areas with the greatest need.Existing survey methods usually require a laborious and expensive 'walk by' survey to establish, accurately, the built characteristics of an area; the EEP model established and uses such a method. This method, which provided information that was then otherwise unobtainable, was applied to the county of Neath Port Talbot. A total of 55,000 dwellings were surveyed (nearly 100% of the population), requiring an investment of 18 man-months. This investment in manpower and time for such surveys has proved to be a barrier to the furtheruptake ofthese modelling techniques.In order to allow greater access to these modelling methods, there is a need to develop new more efficient methods for acquiring survey data of building stock. Should these become available, the indications are that EEP type systems would find wide-scale application.A new method, applying pattern recognition algorithms to the analysis of digital maps, is proposed. At a larger urban level the use of pattern recognition has been established; Barr and Barnsley,for instance, used OS maps to infer urban land use and successfully identified areas with similar built ages by considering street layout patterns. However in order to achieve the level of detail necessary, data at the level of an individual dwelling is required. The proposed programme seeks to develop techniques in order to classify individual dwellings within an area.An initial trial of the concept, using simple pattern matching algorithms, has shown that housing age can be identified by suchanapproach. For instance, in a sample of over 2000 dwellings of varying age 69% of all pre-1919 housing were successfully identified. Higher success rates will be required in a working system. Improvements in the success rate will require the use of more advanced pattern matching methods and algorithms and the use of supporting information, such as distance from the road centre or roof form (as may be determined from satellite imagery for instance). This proposal therefore aims to seekmethodsand data required to improve the success rate, and to establish the likely success rate available from various levels of data availability.An efficient survey method should help to overcome the barriers to the uptake of building stock modelling on a very large scale (e.g. county or regional). However to aid in uptake of such a system, views of stakeholders in the process will be sought in order to define the operational and functional characteristics of such a modelling system.It is envisioned that, once trialled, demonstrated, and established, the techniques could be applied to other aspects of the built environment. Once successful methods for the identification of housing are developed it is envisioned that the method could be extend to develop survey techniques for other building modelling sectors for example non-domestic buildings, green space classification, flood risk, street lighting, industrial processes and transport analysis
Publications (none)
Final Report (none)
Added to Database 22/02/07