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Supply chain interdependent critical infrastructure restoration

Completed
By Center of Excellence for Geospatial Information Science (CEGIS) April 29, 2023

While emergency responses to large-scale natural or man-made disasters are fairly well studies, less attention has been paid to returning an urban environment to its former state of normality (its resiliency).

The most recent start-up project at CEGIS involves integrating geospatial data from The National Map and other sources with infrastructure data and supply chain data to model. 

>> Center of Excellence for Geospatial Information Science (CEGIS) | Science | Data management | Integration

 

Supply Chain Interdependent Critical Infrastructure Restoration

In the wake of a large-scale disaster, strategies for emergency search and rescue, short-term recovery and medium- to long-term restoration are needed.

While considerable effort is geared to developing strategies for the former two options, little comprehensive guidance exists on the latter. In part, the deficit of robust strategies can be linked to the complexity in the data acquisition and limited methodologies to understand the interconnectedness of the relevant systems elements.

This research utilizes infrastructure data for Supply Chain Interdependent Critical Infrastructure Systems (SCICI) such as transportation, energy, communications, or water, obtained or derived through open sources (such as The National Map of the U.S. Geological Survey) to identify, understand, and map the interdependencies between these system elements to enable restoration planning. Specifically, internal geographical relationships (herein called the ‘geographical interdependency’) of SCICI elements are mapped.

These interdependencies highlight the stress points on the larger SCICI where failures occur and are not included in current built environment models. The mapping of these interdependencies is a key step forward in attempts to optimally restore an urban center’s supply chain in the wake of an extreme event.

 

Supply Chain Resiliency: Maritime Transportation

This research develops a tool for Decision Making in Complex Environments that quantifies and ranks select environmental impact indicators within a Maritime Transportation System. The model will provide policy-makers in the shipping industry with an analytical tool that can evaluate tradeoffs within the system and identify possible alternatives to mitigate detrimental effects on the environment. 

 

Virtual Communities

 

 

CEGIS science themes

CEGIS science themes

Theme topics home

Theme topics home

Data management

Data management

Big data

Big data

Catalog/convey

Catalog/convey

Integration

Integration

All Integration publications

All Integration publications

All Data management publications

All Data management publications

All CEGIS publications

All CEGIS publications

CEGIS - Denver, Colorado

National Geospatial Technical Operations Center - Denver, Colorado

CEGIS - Rolla, Missouri

National Geospatial Technical Operations Center - Rolla, Missouri

Samantha T Arundel, PhD

Research Director
Center of Excellence for Geospatial Information Science (CEGIS)
Senior Science Advisor
National Geospatial Program

Ethan Shavers, PhD

CEGIS Section Chief/ Supervisory Geographer
National Geospatial Technical Operations Center
Center of Excellence for Geospatial Information Science (CEGIS)
Phone
573-308-3688

Jung kuan (Ernie) Liu

Physical Research Scientist
National Geospatial Technical Operations Center
Center of Excellence for Geospatial Information Science (CEGIS)

Larry Stanislawski

Research Cartographer
National Geospatial Technical Operations Center
Center of Excellence for Geospatial Information Science (CEGIS)
Phone
573-308-3914

Philip Thiem

Computer Scientist
National Geospatial Technical Operations Center
Center of Excellence for Geospatial Information Science (CEGIS)
Phone
573-308-3514

Dalia E Varanka, PhD

Research Physical Scientist
National Geospatial Technical Operations Center
Center of Excellence for Geospatial Information Science (CEGIS)

E. Lynn Usery (Former Employee)

Senior Scientist
Center of Excellence for Geospatial Information Science (CEGIS)

The Center of Excellence for Geospatial Information Science (CEGIS) collaborates with other agencies, organizations, and universities who support geospatial research and provide student education.

Partners listed below worked with CEGIS for this project.

National Science Foundation (NSF)

U.S. Department of Homeland Security (DHS)

While emergency responses to large-scale natural or man-made disasters are fairly well studies, less attention has been paid to returning an urban environment to its former state of normality (its resiliency).

The most recent start-up project at CEGIS involves integrating geospatial data from The National Map and other sources with infrastructure data and supply chain data to model. 

>> Center of Excellence for Geospatial Information Science (CEGIS) | Science | Data management | Integration

 

Supply Chain Interdependent Critical Infrastructure Restoration

In the wake of a large-scale disaster, strategies for emergency search and rescue, short-term recovery and medium- to long-term restoration are needed.

While considerable effort is geared to developing strategies for the former two options, little comprehensive guidance exists on the latter. In part, the deficit of robust strategies can be linked to the complexity in the data acquisition and limited methodologies to understand the interconnectedness of the relevant systems elements.

This research utilizes infrastructure data for Supply Chain Interdependent Critical Infrastructure Systems (SCICI) such as transportation, energy, communications, or water, obtained or derived through open sources (such as The National Map of the U.S. Geological Survey) to identify, understand, and map the interdependencies between these system elements to enable restoration planning. Specifically, internal geographical relationships (herein called the ‘geographical interdependency’) of SCICI elements are mapped.

These interdependencies highlight the stress points on the larger SCICI where failures occur and are not included in current built environment models. The mapping of these interdependencies is a key step forward in attempts to optimally restore an urban center’s supply chain in the wake of an extreme event.

 

Supply Chain Resiliency: Maritime Transportation

This research develops a tool for Decision Making in Complex Environments that quantifies and ranks select environmental impact indicators within a Maritime Transportation System. The model will provide policy-makers in the shipping industry with an analytical tool that can evaluate tradeoffs within the system and identify possible alternatives to mitigate detrimental effects on the environment. 

 

Virtual Communities

 

 

CEGIS science themes

CEGIS science themes

Theme topics home

Theme topics home

Data management

Data management

Big data

Big data

Catalog/convey

Catalog/convey

Integration

Integration

All Integration publications

All Integration publications

All Data management publications

All Data management publications

All CEGIS publications

All CEGIS publications

CEGIS - Denver, Colorado

National Geospatial Technical Operations Center - Denver, Colorado

CEGIS - Rolla, Missouri

National Geospatial Technical Operations Center - Rolla, Missouri

Samantha T Arundel, PhD

Research Director
Center of Excellence for Geospatial Information Science (CEGIS)
Senior Science Advisor
National Geospatial Program

Ethan Shavers, PhD

CEGIS Section Chief/ Supervisory Geographer
National Geospatial Technical Operations Center
Center of Excellence for Geospatial Information Science (CEGIS)
Phone
573-308-3688

Jung kuan (Ernie) Liu

Physical Research Scientist
National Geospatial Technical Operations Center
Center of Excellence for Geospatial Information Science (CEGIS)

Larry Stanislawski

Research Cartographer
National Geospatial Technical Operations Center
Center of Excellence for Geospatial Information Science (CEGIS)
Phone
573-308-3914

Philip Thiem

Computer Scientist
National Geospatial Technical Operations Center
Center of Excellence for Geospatial Information Science (CEGIS)
Phone
573-308-3514

Dalia E Varanka, PhD

Research Physical Scientist
National Geospatial Technical Operations Center
Center of Excellence for Geospatial Information Science (CEGIS)

E. Lynn Usery (Former Employee)

Senior Scientist
Center of Excellence for Geospatial Information Science (CEGIS)

The Center of Excellence for Geospatial Information Science (CEGIS) collaborates with other agencies, organizations, and universities who support geospatial research and provide student education.

Partners listed below worked with CEGIS for this project.

National Science Foundation (NSF)

U.S. Department of Homeland Security (DHS)

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