Abstract
Conceptual design was made on a database system as part of the comprehensive surveys of nationwide geothermal resources. Underground hot water in depths of several kilometers close to the ground surface is a utilizable geothermal energy. Exploration using the ground surface survey is much less expensive than the test drilling survey, but has greater error in estimation because of being an indirect method. However, integrating data by freely using a number of exploration methods can improve the accuracy of estimation on the whole. In performing the conceptual design of a geothermal resource information system, the functions of this large scale database were used as the framework. Further data collection, distribution and interactive type man-machine communication, modeling, and environment surveillance functions were incorporated. Considerations were also given on further diversified utilization patterns and on support to users in remote areas and end users. What is important in designing the system is that constituting elements of hardware and software should function while being combined organically as one system, rather than the elements work independently. In addition, sufficient expandability and flexibility are indispensable. (NEDO)
Citation Formats
None.
Report on comprehensive surveys of nationwide geothermal resources in fiscal 1979. Conceptual design of a database system; 1979 nendo zenkoku chinetsu shigen sogo chosa hokokusho. Database system gainen sekkei.
Japan: N. p.,
1980.
Web.
None.
Report on comprehensive surveys of nationwide geothermal resources in fiscal 1979. Conceptual design of a database system; 1979 nendo zenkoku chinetsu shigen sogo chosa hokokusho. Database system gainen sekkei.
Japan.
None.
1980.
"Report on comprehensive surveys of nationwide geothermal resources in fiscal 1979. Conceptual design of a database system; 1979 nendo zenkoku chinetsu shigen sogo chosa hokokusho. Database system gainen sekkei."
Japan.
@misc{etde_20102629,
title = {Report on comprehensive surveys of nationwide geothermal resources in fiscal 1979. Conceptual design of a database system; 1979 nendo zenkoku chinetsu shigen sogo chosa hokokusho. Database system gainen sekkei}
author = {None}
abstractNote = {Conceptual design was made on a database system as part of the comprehensive surveys of nationwide geothermal resources. Underground hot water in depths of several kilometers close to the ground surface is a utilizable geothermal energy. Exploration using the ground surface survey is much less expensive than the test drilling survey, but has greater error in estimation because of being an indirect method. However, integrating data by freely using a number of exploration methods can improve the accuracy of estimation on the whole. In performing the conceptual design of a geothermal resource information system, the functions of this large scale database were used as the framework. Further data collection, distribution and interactive type man-machine communication, modeling, and environment surveillance functions were incorporated. Considerations were also given on further diversified utilization patterns and on support to users in remote areas and end users. What is important in designing the system is that constituting elements of hardware and software should function while being combined organically as one system, rather than the elements work independently. In addition, sufficient expandability and flexibility are indispensable. (NEDO)}
place = {Japan}
year = {1980}
month = {Mar}
}
title = {Report on comprehensive surveys of nationwide geothermal resources in fiscal 1979. Conceptual design of a database system; 1979 nendo zenkoku chinetsu shigen sogo chosa hokokusho. Database system gainen sekkei}
author = {None}
abstractNote = {Conceptual design was made on a database system as part of the comprehensive surveys of nationwide geothermal resources. Underground hot water in depths of several kilometers close to the ground surface is a utilizable geothermal energy. Exploration using the ground surface survey is much less expensive than the test drilling survey, but has greater error in estimation because of being an indirect method. However, integrating data by freely using a number of exploration methods can improve the accuracy of estimation on the whole. In performing the conceptual design of a geothermal resource information system, the functions of this large scale database were used as the framework. Further data collection, distribution and interactive type man-machine communication, modeling, and environment surveillance functions were incorporated. Considerations were also given on further diversified utilization patterns and on support to users in remote areas and end users. What is important in designing the system is that constituting elements of hardware and software should function while being combined organically as one system, rather than the elements work independently. In addition, sufficient expandability and flexibility are indispensable. (NEDO)}
place = {Japan}
year = {1980}
month = {Mar}
}