Geologic Time Scale Historical Geology. Geologic Time Scale.
A Prototype Internet-Based Geologic Information System for the US
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A Prototype Internet-Based Geologic Information System for the US National Park Service
A Prototype Internet-Based Geologic Information System for the US
National Park ServiceA. Keith Turner & Brian Kelk
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Table of Contents
A Prototype Internet-Based Geologic Information System for the US National Park Service
Why a Distributed System for NPS?
‘Think Big, Start Small’
Who Will Use the Information?
Assessment of User Requirements
Authors: A. Keith Turner & Brian Kelk
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A Prototype Internet-Based Geologic Information System for the US National Park Service
‘Hub and Spoke’ Concept
Major Benefits of Concept
GeoHub/GeoSpokes
GeoSpoke Structure
Summary Specification of Prototype GeoHub/GeoSpoke
Now and Then?
PPT Slide
PPT Slide
PPT Slide
last update: 24-Jul-01 03:58 webmaster: [email protected]
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A Prototype Internet-Based Geologic Information System for the US National Park Service
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Notes:
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A Prototype Internet-Based Geologic Information System for the US National Park Service
This describes work done in 1996/97 in the Department of Geology and Geological Engineering at the Colorado School of Mines, Golden, USA.
Dr Keith Turner is Professor of Geological Engineering there, and Dr Brian Kelk was a Visiting Professor for most of the time of the project.
Keith Turner is Chairman of the COGEOINFO Working Group on the Societal Uses of Geoscience Information. Brian Kelk is Secretary/Treasurer of COGEOINFO.
COGEOINFO is the IUGS Commission for the Management and Application of Geoscience Information
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Why a Distributed System for NPS?
Slide 2 of 14
Notes:
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Why a Distributed System for NPS?
The NPS is typified by the strong local management of its 300+ dispersed and disparate Parks.
Even though there are disciplinary Divisions, eg Geologic Resources Division and Air Resources Division, the coordination between Parks on a national scale is relatively small.
Each Park necessarily needs access to, and maintains, very different information from its neighbours.
Some Parks are so small that there is virtually no data management.
The quality of information management and resource is not necessarily related to Park size.
Some Parks have only a small, outdated, computer, yet others have GIS groups
Some Parks in 1997 did not have Internet connection.
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‘Think Big, Start Small’
Slide 3 of 14
Notes:
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‘Think Big, Start Small’
Early discussions with senior staff of the Geologic Resources Division of the National Park Service emphasized a number of key points:
1. Whatever system was proposed would have to be managed by that Division
2. No new staff could be obtained for data input or system management
3. The implementation would have to be structured in Phases for financial and management purposes.
4. Phase 1 must show a quick benefit in information availability and access
5. The success of each Phase should never be dependant on any later Phase.
Important politically to ‘Think Big’, but start with the achievable, and plan for successively more sophisticated applications. Hence, start with metadata but plan for later remote access to GIS.
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Who Will Use the Information?
Slide 4 of 14
Notes:
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Who Will Use the Information?
Use of the Information system was expected to be dominantly by NPS staff researchers and interpreters (those staff with the responsibility to interpret the science in a manner suitable for the general public)
As the system develops so the use by visitors and external researchers should increase.
With the importance placed in the US upon public access to information about Government organisations, it was necessary to plan for easy access by politicians and senior Government officials to overview information.
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Assessment of User Requirements
Slide 5 of 14
Notes:
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Assessment of User Requirements
Typically, the potential users amongst the NPS staff had little or no experience of modern digital information systems, and therefore found difficulty in describing their needs. This is common to many users of geoscience information, who may well answer such queries in terms of existing geoscience products. Eg, when needing information on aggregate resources, they ask for a digital general geologic map, because that is what THEY THINK will be available.
It was necessary therefore to build a ‘digital demonstrator’ of what the information system might be. This was then used in a USER REQUIREMENT ASSESSMENT to guide the potential users through the possibilities and help them define their needs.
One major point identified at an early stage was the need to link to, and make maximum use of the majority of existing geological databases and systems in those Parks, Divisions or Information Centers that had spent time developing them.
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‘Hub and Spoke’ Concept
Slide 6 of 14
Notes:
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‘Hub and Spoke’ Concept
From an understanding of the operation of the NPS, and the findings of the User Requirement study, it was clear that:
1. The individuality and autonomy of each Park must be respected within the Geologic Information System
2. Progress on the Information System would depend on each Park ‘buying into’ the project. It could not be enforced from the top.
3. Improved access to locally-held information would greatly benefit the operations of the NPS and enhance its external scientific reputation.
The existing, locally developed and maintained information systems at the individual park units may be likened to a series of dispersed resources that are loosely connected to each other, forming a disconnected ring or circle as at the rim of a wheel. To make these resources generally useful, rather than limited to the immediate clientele, it is necessary to develop ‘spokes’ for communication and a ‘hub’ for maintenance and querying of the general index, general communication outside, and overall coordination. In this way, all the excellent, though mostly uncoordinated work at the “rim” will be unchanged, but incorporated into a total NPS Geologic Information System
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Major Benefits of Concept
Slide 7 of 14
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GeoHub/GeoSpokes
Slide 8 of 14
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GeoSpoke Structure
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Summary Specification of Prototype GeoHub/GeoSpoke
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Now and Then?
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Notes:
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Now and Then?
The prototype is limited in the number of local centers (‘Spokes’) it can accommodate by the use of Access. Currently that limit is about 12 Parks.
Dependant on the outcome of the prototype trials, an expansion upto 300+ parks is feasible with a change in architecture. By that time it is expected that the technology for remote interactive access to GIS systems will be sufficiently robust and generally available to be incorporated.
The next slides give some impression of that new, remotely interactive, Web-based GIS technology.
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PPT Slide
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PPT Slide
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Notes:
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This is the bedrock geology.
Such sites are limited at the moment but do indicate the exciting future possibilities.
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PPT Slide
PPT Slide
Previous slide Back to first slide View graphic version
Notes:
This is the bedrock geology.
Such sites are limited at the moment but do indicate the exciting future possibilities.
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PPT Slide
PPT Slide
Previous slide Next slide Back to first slide View graphic version
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PPT Slide
PPT Slide
Previous slide Next slide Back to first slide View graphic version
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Now and Then?
Now and Then?
● NOW at prototype testing phase
● LATER:
❍ change architecture from WAN to N-tier application ❍ expand number of ‘spokes’ ❍ access to REAL data through a Web browser ❍ provision to interact with local GIS systems through Web browser
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Notes:
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Now and Then?
The prototype is limited in the number of local centers (‘Spokes’) it can accommodate by the use of Access. Currently that limit is about 12 Parks.
Dependant on the outcome of the prototype trials, an expansion upto 300+ parks is feasible with a change in architecture. By that time it is expected that the technology for remote interactive access to GIS systems will be sufficiently robust and generally available to be incorporated.
The next slides give some impression of that new, remotely interactive, Web-based GIS technology.
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Summary Specification of Prototype GeoHub/GeoSpoke
Summary Specification of Prototype GeoHub/GeoSpoke
● Client-server db application used over a WAN with automatic access to its data on the WWW
● Metadata only at this stage
● Identical information structures at Spoke and Hub
● Data input locally: screens form part of GeoSpoke
● Existing tables/text imported directly
● Transmission of data (over WWW) from Geospoke to GeoHub is responsibility - and decision - of local (‘spoke’) manager
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Summary Specification of Prototype GeoHub/GeoSpoke
Previous slide Next slide Back to first slide View graphic version
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GeoSpoke Structure
GeoSpoke Structure2D
3D
Thematic layers, eg
● co-ordinate system
● hydrography
● surface geology
● well/resource locations
Internet / Non-NPS Data Locations
NPS site data
● Printed material
● images
● specimen collections file:///D|/website%20Hack%20itc/esf/esf_1997/presenta/turner/tsld009.html (1 of 2) [12-Nov-05 23:03:56]
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GeoSpoke Structure
● digital files
GEOSPOKE DATA INDEX
GIS views
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GeoHub/GeoSpokesTIC
GRD
MEVE
REDW
?
?
ARD
I &M
GEOHUB
Individual Parks etc “GeoSpokes”
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Major Benefits of Concept
● Make the dispersed resources generally useful, not just available locally
● Do not change existing excellent local work
● Incorporate wide variety of operations into a total NPS Geologic Information System
● Local managers in charge of own data
● Development easily phased & rapid benefits
● No major additional staff requirement
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‘Hub and Spoke’ Concept
● Necessary to maintain local individuality and services
● Develop a ‘Hub’ for maintenance and querying
● Develop ‘Spokes’ for communication from/to individual parks & information sources
Previous slide Next slide Back to first slide View graphic version
Notes:
From an understanding of the operation of the NPS, and the findings of the User Requirement study, it was clear
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that:
1. The individuality and autonomy of each Park must be respected within the Geologic Information System
2. Progress on the Information System would depend on each Park ‘buying into’the project. It could not be enforced from the top.
3. Improved access to locally-held information would greatly benefit the operations of the NPS and enhance its external scientific reputation.
The existing, locally developed and maintained information systems at the individual park units may be likened to a series of dispersed resources that are loosely connected to each other, forming a disconnected ring or circle as at the rim of a wheel. To make these resources generally useful, rather than limited to the immediate clientele, it is necessary to develop ‘spokes’for communication and a ‘hub’for maintenance and querying of the general index, general communication outside, and overall coordination. In this way, all the excellent, though mostly uncoordinated work at the “rim”will be unchanged, but incorporated into a total NPS Geologic Information System
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Assessment of User Requirements
● Most NPS staff had little experience of modern digital information systems
● ‘Digital Demonstrator’ built to aid potential users define their needs
● Any new system should link to, and make maximum use of, existing geologic databases and systems
Previous slide Next slide Back to first slide View graphic version
Notes:
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Typically, the potential users amongst the NPS staff had little or no experience of modern digital information systems, and therefore found difficulty in describing their needs. This is common to many users of geoscience information, who may well answer such queries in terms of existing geoscience products. Eg, when needing information on aggregate resources, they ask for a digital general geologic map, because that is what THEY THINK will be available.
It was necessary therefore to build a ‘digital demonstrator’of what the information system might be. This was then used in a USER REQUIREMENT ASSESSMENT to guide the potential users through the possibilities and help them define their needs.
One major point identified at an early stage was the need to link to, and make maximum use of the majority of existing geological databases and systems in those Parks, Divisions or Information Centers that had spent time developing them.
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Who Will Use the Information?
● Potential users:
❍ Park Superintendents ❍ Resource Managers ❍ Researchers (NPS staff, academics and others) ❍ Interpreters (interpret science for visitors) ❍ Visitors ❍ Politicians and Senior NPS staff
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Notes:
Use of the Information system was expected to be dominantly by NPS staff researchers and interpreters (those staff
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with the responsibility to interpret the science in a manner suitable for the general public)
As the system develops so the use by visitors and external researchers should increase.
With the importance placed in the US upon public access to information about Government organisations, it was necessary to plan for easy access by politicians and senior Government officials to overview information.
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‘Think Big, Start Small’
● No spare staff to man a big new system
● No easily identified source of new money
● Structure project in phases so even Phase 1 shows an improvement in information flow
● Each successive phase dependant only on predecessor
● Start with metadata: allow for later remote interactive access, even to GIS.
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Notes:
Early discussions with senior staff of the Geologic Resources Division of the National Park Service emphasized a number of key points:
1. Whatever system was proposed would have to be managed by that Division
2. No new staff could be obtained for data input or system management
3. The implementation would have to be structured in Phases for financial and management purposes.
4. Phase 1 must show a quick benefit in information availability and access
5. The success of each Phase should never be dependant on any later Phase.
Important politically to ‘Think Big’, but start with the achievable, and plan for successively more sophisticated applications. Hence, start with metadata but plan for later remote access to GIS.
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Why a Distributed System for NPS?
Why a Distributed System for NPS?
● Over 300 disparate and dispersed Parks
● National Park Service (NPS) typified by autonomy of individual Parks
● Little coordination between Parks
● Different information from Park to Park
● Wide range in quality of data organization, computers and communications
● Wide range in use of computer technology
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Why a Distributed System for NPS?
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Notes:
The NPS is typified by the strong local management of its 300+ dispersed and disparate Parks.
Even though there are disciplinary Divisions, eg Geologic Resources Division and Air Resources Division, the coordination between Parks on a national scale is relatively small.
Each Park necessarily needs access to, and maintains, very different information from its neighbours.
Some Parks are so small that there is virtually no data management.
The quality of information management and resource is not necessarily related to Park size.
Some Parks have only a small, outdated, computer, yet others have GIS groups
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A Prototype Internet-Based Geologic Information System for the US National Park Service
A Prototype Internet-Based Geologic Information System for the US National Park Service
A. Keith Turner & Brian Kelk
IUGS/COGEOINFO
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Notes:
This describes work done in 1996/97 in the Department of Geology and Geological Engineering at the Colorado
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A Prototype Internet-Based Geologic Information System for the US National Park Service
School of Mines, Golden, USA.
Dr Keith Turner is Professor of Geological Engineering there, and Dr Brian Kelk was a Visiting Professor for most of the time of the project.
Keith Turner is Chairman of the COGEOINFO Working Group on the Societal Uses of Geoscience Information. Brian Kelk is Secretary/Treasurer of COGEOINFO.
COGEOINFO is the IUGS Commission for the Management and Application of Geoscience Information
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