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Copyright © 2015 Anuj Tiwari and Kamal Jain. This is an open access article distributed under the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited. Abstract In order to prevent, avoid or ameliorate the impact of disaster there are various solutions proposed by different international, national organizations, agencies and NGOs. These solutions established GIS as an indispensable tool to develop plans for tackling a disaster in a much better way. Geographic information systems enable efficient organisation of disaster dataset. Its visualization framework are capable to redraw the worst natural clematises that can be quarried and analyzed to produce results, helpful to save important human life and prevent infrastructure damages. Although there is a wide variety of simulation and modelling techniques, implementation strategies and customization options available in GIS, it is impossible to simulate and analyze rapidly changing 3D dynamic disaster phenomena within the current 2D GIS. The perceptions of decision makers tasked with dealing with a particular natural hazard are highly influenced by the manner in which the hazard is visualized. Disaster manager often use digital maps; using 3D graphical representation significantly reduces the cognition effort needed to interpret the situation and improves the efficiency of the
Tiwari et al. (Thu,) studied this question.