The relationship between geoinformatics and geology is a very complex one, as geoinformatics uses the information gathered from geological study and examines it to see how it can be used to improve the study of geology itself. Researchers who specialize in geoinformatics work to develop technologies which help geologists to more easily access data, confer with their colleagues, and better predict and prepare for geological upheavals and other geological events. This information and these developed technologies can then be used to prepare the populations of areas of geological activity for impending events and also serve to improve the understanding of geologists of why certain areas are more prone to upheaval than other areas which have a similar geological background. The new data that they collect and share with their colleagues is then used by geoinformatics researchers to help improve the quality of the data and equipment that is available to geologists once again.
Geoinformatics and Engineering
Another major part of the work done by researchers in the geoinformatics field is their interaction with certain branches of engineering, especially those who deal with developing building structures which can better stand up against geological activity such as earthquakes. By studying the information available from geology and how it is applied to buildings and other structures, geoinformatics researchers can construct in-depth computerized models which simulate the forces created by different types of geological upheaval. These models can be invaluable to engineers seeking to develop houses and buildings with a greater structural integrity for earthquake-prone areas, and may even lead to the development of new building materials which are secure against a number of different types of natural phenomena. When working with engineers, it may also be possible for geoinformatics researchers to develop more complex simulations to test new building technologies or to see what the shortcomings of previous materials were; this can greatly increase the knowledge available to engineers concerning why certain building designs fail under stress and others don’t, leading to the development of more resistant designs and helping engineers to find out what existing technologies need to be modified to improve building integrity and safety for inhabitants.
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