1 / 13

John J Moeller

John J Moeller. Senior Principal Engineer. ROCKET CITY GEOSPATIAL CONFERENCE 2009 November 17, 2009 SPATIAL DATA INFRASTRUCTURES and GEOSPATIAL INTEROBERABILITY. Geospatial – Tools for Specialists and Citizens.

anka
Télécharger la présentation

John J Moeller

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. John J Moeller Senior Principal Engineer ROCKET CITY GEOSPATIAL CONFERENCE 2009November 17, 2009SPATIAL DATA INFRASTRUCTURES and GEOSPATIAL INTEROBERABILITY

  2. Geospatial – Tools for Specialists and Citizens • Until recently mass market geospatial capabilities were essentially limited to hard copy maps • Radical changes in use of geospatial capabilities have been spurred by the internet explosion, distributed networks, wireless communications, and other new tools • Geospatial information and technology now use the techniques and cultures of the internet • Geospatial approaches had focused on single disciplines or technologies, now they are multi-disciplinary • A significant benefit of this technology revolution is that geospatial information is now being understood by most people and SDI’s are increasingly viable

  3. Background - Federal Spatial Policy The current framework of federal guidance for spatial data has evolved from an Executive Order by President Roosevelt in 1906 Over the years consistent themes of federal directives for coordination has been: avoiding duplication of effort; standardized maps; information readily available regardless of its source; and engagement of the non-government sector Primary Spatial Policy directives are: OMB Circular A-16 (revised 2002) Executive Order 12906 ( April 11, 1994) eGov Act of 2002 regarding common protocols for geographic information (see Section 216) Other Law and Policy directives influence spatial activities. Some examples: National Technology and Transfer Act of 1995 OMB Circulars A-119 and A-130 Privacy and Freedom of Information Laws Procurement Laws Agency Specific Laws and Policy directives State law and policy

  4. What is a Spatial Data Infrastructure ? • A Spatial Data Infrastructure is the “Dial-Tone” of the geospatial web • “the means to assemble geographic information that describes the arrangement and attributes of features and phenomena on the Earth” (US National Research Council) • ‘the technology, policies, standards, and human resources necessary to acquire, process, store, distribute and improve utilization of geospatial data” (US NSDI EO 12906) • “The NSG is the combination of technology, policies, capabilities, doctrine, activities, people, data and communities necessary to produce GEOINT in an integrated multi-intelligence, multi-domain environment.” (NGA Statement of Strategic Intent for the NSG) • “infrastructure for spatial information’ means metadata, spatial data sets and spatial data services; network services and technologies; agreements on sharing, access and use; and coordination and monitoring mechanisms, processes and procedures” (DIRECTIVE 2007/2/EC OF THE EUROPEAN PARLIAMENT AND OF THE COUNCIL establishing an Infrastructure for Spatial Information in the European Community)

  5. The U.S. National Spatial Data Infrastructure Components (From FGDC Presentation www.fgdc.gov)

  6. A Framework of Standards for Geospatial Interoperability • ISO TC211, Open Geospatial Consortium, National, and Governmental standards organizations provide a Framework of Geospatial Standards for interoperability • Standards compliant products are available in geospatial marketplace for use in architectures and spatial infrastructures • Standards Baselines which are built on ISO and OGC standards have been adopted for many Spatial Data Infrastructures and Architectures such as: • US National Spatial Data Infrastructure (Geospatial Profile of FEA) • Canadian Geospatial Data Infrastructure • National System for Geospatial Intelligence • Australian Spatial Data Infrastructure • Infrastructure for Spatial Information in Europe • Geospatial Metadata Standards are critical for geospatial interoperability

  7. State and Local • All Sectors are critical in building SDI’s as part of completing the NSDI. For example: • Private Sector owns or manages 85% of the Nation’s Critical Infrastructure • Local level governments collect and maintain a large percentage of nation’s geospatial data – most of the cadastral data • State governments collect and maintain much geospatial data and serve key policy and coordination/facilitation roles • There are many effective state and local coordination/SDI efforts and indications of increasing maturity of geospatial capabilities: • Large percent of States have Coordination Councils with most having defined authorities, mission statements and broad stakeholder participation • Many local governments use geospatial data and technology for every day business applications • Most states have a clearinghouse node with many able to be harvested by GOS Portal • Most State Councils endorse OCG, ISO, National and FGDC standards • 50 States Initiative provides a good foundation for coordination and planning as well as a Score Card to measure implementation

  8. State and Local • Even with the good history of cooperation there still is a way to go in SDI implementation: • Lack of communication • Difference in policies for data access and redistribution • Lack of documentation (Metadata) • Lack of data sharing agreements • Data standards • Implementation of interoperability standards • Funding/financing

  9. Think About Spatial Data Infrastructure in terms of Organizational Maturity • Geospatial information is now an integral part of information networks • Successful implementation and use requires balancing individual needs with needs of the enterprise • Implementation of a Spatial Infrastructure is part of the maturation of an organization and its ability to integrate systems and business processes across the enterprise • Consistent methods, architectures , policy and standards • Capable of transitioning institutional culture and processes to integrate with other systems • Geospatial technology used as integral element of enterprise business/mission rather than as a separate discipline

  10. STRATEGY LEGAL DATA POLICY PROCESSES TECHNOLOGY PEOPLE Management of the Enterprise Components of Organizational Management

  11. A Geospatial Integration Maturity Model – Five Levels •Processes and policies ad hoc and chaotic •Data Managed on an application basis •Data quality handles on an ad hoc basis •No spatial data infrastructure Level 1 Unstructured •Processes and policies defined for individual projects •Little cross-process or cross-project planning •Master data identified •Requirements for spatial data infrastructure recognized and planned •Data quality consists of essential metadata for a limited # of data sets Level 2 Initial •Processes for high priority projects tracked and managed •Cross-process and cross-project coordination instituted •Master data managed on a process basis •Data quality managed across individual processes •Spatial data infrastructure maintained for processes Level 3 Managed •Policies and processes defined across organization •Processes consistently described in policy, standards and practice across organization •Master data managed and controlled across organization •Enterprise spatial data infrastructure maintained Level 4 Defined •Quantitative objectives used as criteria in managing and improving processes •Master data managed and improved using internal, adjacent and external resources •Extra-enterprise spatial data infrastructure maintained Level 5 Optimized Each level in the model builds upon the previous level. There are costs and benefits but there is a positive return for reaching higher maturity levels

  12. Summary • The NSDI should be viewed as dynamic, growing and evolving • From local to federal levels, geospatial is increasingly viewed as a way to provide not only a “common operating picture” but “a common view of the enterprise” • An SDI should be recognized as a critical enterprise asset. As organizational SDIs mature they will evolve in their ability to integrate with State Spatial Data Infrastructures (SSDIs) and the NSDI • The use of open, standards-based, services-oriented architectures helps tie together the growing number of creative applications to meet the needs of business and personal activities • More mature organizations are better able to implement enterprise architectures, best practices and spatial information infrastructures that support the needs of society and business

  13. Thank You !! • John Moeller • john.moeller@ngc.com • Office: 703-961-5328 • Cell: 202-494-2671

More Related