posted on 2006-02-10, 13:35authored byMatthew J. Pilgrim
Visualisation, the representation of data in visual form, is at the core of our ability to
communicate information. Without clear representation, data would remain in its raw
form thus greatly hindering the communication process. This is especially the case
when the data source is large, complex and subject to change. One such area is related
to the use of computer based simulation tools for thermal analysis.
This research investigates the potential of visualisation to improve the ways in
which thermal analysis data are presented to building services engineers, with a view to
increasing the accuracy and efficiency of its interpretation. The approach taken
throughout followed a pattern of research, development, demonstration and evaluation.
The research phase included a detailed review of existing visualisation theory and an
extensive user requirement survey. The development phase produced three working
visualisation software prototypes, each of which was demonstrated or evaluated within
the sponsoring company.
Whilst the initial emphasis of the research was advanced Three-Dimensional (3D)
visualisation, extensive user requirement analysis indicated that comparing multiple
datasets in an intuitive manner was more important. In response, the research focused
on combining techniques in ways which supported the rapid comparison of multiple
files and the data contained within. The final prototype combines techniques for data
storage and manipulation with information visualisation techniques and advanced 3D
graphics. These elements are tightly integrated within a single application that
facilitates the management and interpretation of data from multiple analysis models.
Evaluation of the prototype showed high levels of user satisfaction and improvements in
the accuracy and efficiency of data interpretation. The techniques demonstrated by the
prototype were also understood and liked by the users of thermal analysis tools. Several
of the techniques, such as the new Force Directed Difference Diagrams, have potential
applications outside of building services engineering. The research has demonstrated it
is possible to improve the representation and interpretation of building performance data
using visualisation techniques.
History
School
Architecture, Building and Civil Engineering
Research Unit
Centre for Innovative and Collaborative Engineering (CICE)