Introduction
The most effective means of depicting events over space and time is through spatial data. The value of
representing information in form of a map has been realised since the beginning of civilisation. The transition
of representation of information from historical artistic depiction to complex digital formats has been due to
tremendous progress made in acquisition of data through remote sensing, organisation of databases around
Geographic Information System (GIS) and Global Positioning System (GPS). The advances in computer,
database and communication technologies, and digital cartography has facilitated emergence of geo
databases and digital mapping.
During last four years, significant development has taken place in spatial data infrastructure. Databases of
various types have been produced at national, regional and global levels. The focus is on acquisition of stereo
images for 3D analysis. The recent availability of high-resolution orbital data (CARTOSAT 1 & 2, TerraSAR-X)
has provided unique opportunity to carry out research in automatic image interpretation and object extraction.
The emphasis is clearly on automatic updating of databases. The improvement in positional accuracy needs
to be addressed. The image-based spatio-temporal data has been receiving increasing attention especially
related to content-based indexing, querying, data mining, in information retrieval. The development in
algorithms for management of geo-sensor networks is continuing and likely will see further improvement.
The advancement in visualisation allows virtual displays of landscape in great detail, from a global scale of
world-wide processes to fine scale views of cities and buildings. Visualisation techniques are used to
interactively explore spatial structures and processes, create virtual realities, demonstrate human impact on
landscapes, etc. The 3D visualisation capability has significant impact on society.
Continuous development of various web-based GIS services and applications have substantially increased
and enhanced the use of GIS in spatial data access and dissemination, exploration, visualisation, processing,
analysis and modelling. Grid computing continues to be an active research subject in Web GIS as it manages
massive distributed computing/storage resources and improves performance. Open-source software has
provided new, cost-effective solution to web-based geospatial information and service. The concept of virtual
Globe is very important for the future development of Web GIS. Location-based services enable wired and
wireless users to integrate geospatial information developing a solution. The development of open standards
and the interoperability will facilitate enormous potential for sharing scientific data with common standards for
providing web-based and location based services, to the variety of users.
The application of such databases and development of services for societal benefit is critical. The geospatial
technology is a key for response to a disaster or a emergency. The setting of warning centres, especially for
tsunami, has been around geospatial technology for acquisition of data from variety of platforms, organisation
into a data base, representation and visualisation of data/information, analysis, modelling and dissemination of
advisories including generating hazard or risk maps. The collection and analysis of data including 3D within
first hours to few days and its integration with existing data is crucial for rescue and relief operations.
A number of missions are on way to explore the resources on our solar system. The data supplied by these
missions will open a new chapter in mapping of extra-terrestrial systems and creating spatial databases, and
web based access. The spatial information systems for planetary system are being built. The interest in Lunar
mapping research is increasing (SELENE, LRO, Chandrayan-1). Digital terrain products are likely to be
available shortly to construct Lunat topographic model. Various approaches are being investigated to produce
high resolution DTMs from HRSC (MEX) and HiRISE (MRO) to generate geodetically controlled digital
topographic models for Mars. Cassini spacecraft provided data to produce atlases of icy satellites of Saturn.
The Proceedings are culmination four years of research carried out by all working groups of the Commission.
It reflects the current state of knowledge in the field of geospatial technology and applications. I am sure the
Proceedings will be very useful to all researchers in this field.
I also take an opportunity to thank all my colleagues in the Commission, my fellow presidents and the council
for their support and guidance during last four years.
Shailesh Nayak
President of ISPRS Technical Commission IV
