hi_csp_hono_hurflood_slrhm
eng
UTF8
dataset
service
Kwok Fai Cheung
University of Hawaii at Manoa
cheung@hawaii.edu
http://www.soest.hawaii.edu/ore/people/faculty/kwok-fai-cheung/
http
web browser
information
pointOfContact
2021-03-30
ISO 19115-2 Geographic Information - Metadata Part 2 Extensions for imagery and gridded data
ISO 19115-2:2009(E)
2
column
3340
8.982e-05
row
1781
8.982e-05
area
Hurricane Storm Surge Inundation With 0.5-m Sea Level Rise: Honolulu, Hawaii
2014-09-26
creation
2014-09-26
issued
2014-09-26
revision
org.pacioos
hi_csp_hono_hurflood_slrhm
Kwok Fai Cheung
University of Hawaii at Manoa
cheung@hawaii.edu
http://www.soest.hawaii.edu/ore/people/faculty/kwok-fai-cheung/
http
web browser
information
originator
University of Hawaii Sea Grant College Program (UHSG)
uhsgcomm@hawaii.edu
https://seagrant.soest.hawaii.edu
http
web browser
information
resourceProvider
Pacific Islands Ocean Observing System (PacIOOS)
info@pacioos.org
http://pacioos.org
http
web browser
information
publisher
Computer model simulation of hurricane storm surge inundation around Honolulu, Hawaii including half a meter of sea level rise at mean higher high water (MHHW) as its baseline water level. The study area includes the urban corridor stretching from Pearl Harbor to Waikiki and Diamond Head along the south shore of the island of Oahu. The model simulates a Category 4 hurricane, similar to Hurricane Iniki which devastated the island of Kauai in 1992, with a central pressure ranging from 910 to 970 mbar and maximum sustained winds ranging from 90 to 150 mph as it tracked from open ocean to land to open ocean again. The model result shows the Maximum of the Maximum Envelope of High Water (MEOW), or MOM, providing a worst-case snapshot for a particular storm category under "perfect" storm conditions.
Model results produced in 2014 by Dr. Kwok Fai Cheung of the department of Ocean and Resources Engineering (ORE) in the School of Ocean and Earth Science and Technology (SOEST) of the University of Hawaii at Manoa. Supported in part by the NOAA Coastal Storms Program (CSP) and the University of Hawaii Sea Grant College Program. While considerable effort has been made to implement all model components in a thorough, correct, and accurate manner, numerous sources of error are possible. These data do not consider future changes in coastal geomorphology and natural processes such as erosion, subsidence, or future construction. These data do not specify timing of inundation depths and are not appropriate for conducting detailed spatial analysis. The entire risk associated with the results and performance of these data is assumed by the user. These data should be used strictly as a planning reference and not for navigation, permitting, or other legal purposes.
PacIOOS provides timely, reliable, and accurate ocean information to support a safe, clean, productive ocean and resilient coastal zone in the U.S. Pacific Islands region.
The Pacific Islands Ocean Observing System (PacIOOS) is funded through the National Oceanic and Atmospheric Administration (NOAA) as a Regional Association within the U.S. Integrated Ocean Observing System (IOOS). PacIOOS is coordinated by the University of Hawaii School of Ocean and Earth Science and Technology (SOEST).
Kwok Fai Cheung
University of Hawaii at Manoa
cheung@hawaii.edu
http://www.soest.hawaii.edu/ore/people/faculty/kwok-fai-cheung/
http
web browser
information
pointOfContact
http://pacioos.org/metadata/browse/hi_csp_hono_hurflood_slrhm.png
Sample image.
Earth Science > Atmosphere > Atmospheric Phenomena > Hurricanes
Earth Science > Climate Indicators > Atmospheric/Ocean Indicators > Sea Level Rise > Inundation
Earth Science > Human Dimensions > Natural Hazards > Tropical Cyclones > Hurricanes
Earth Science > Oceans > Coastal Processes > Sea Level Rise
Earth Science > Oceans > Coastal Processes > Storm Surge
Earth Science Services > Models > Ocean General Circulation Models (OGCM)/Regional Ocean Models
Earth Science Services > Models > Weather Research/Forecast Models
theme
GCMD Science Keywords
Continent > North America > United States Of America > Hawaii
Ocean > Pacific Ocean > Central Pacific Ocean > Hawaiian Islands > Oahu > Honolulu
place
GCMD Location Keywords
PacIOOS > Pacific Islands Ocean Observing System
project
GCMD Project Keywords
PacIOOS > Pacific Islands Ocean Observing System
dataCenter
GCMD Data Center Keywords
The data may be used and redistributed for free but is not intended for legal use, since it may contain inaccuracies. Neither the data Contributor, University of Hawaii, PacIOOS, NOAA, State of Hawaii nor the United States Government, nor any of their employees or contractors, makes any warranty, express or implied, including warranties of merchantability and fitness for a particular purpose, or assumes any legal liability for the accuracy, completeness, or usefulness, of this information.
Pacific Islands Ocean Observing System (PacIOOS)
largerWorkCitation
project
eng
climatologyMeteorologyAtmosphere
oceans
1
-158.1
-157.79991138
21.240000000000002
21.40005924
Hurricane Storm Surge Inundation With 0.5-m Sea Level Rise: Honolulu, Hawaii
2014-09-26
creation
2014-09-26
issued
2014-09-26
revision
Kwok Fai Cheung
University of Hawaii at Manoa
cheung@hawaii.edu
http://www.soest.hawaii.edu/ore/people/faculty/kwok-fai-cheung/
http
web browser
information
originator
Pacific Islands Ocean Observing System (PacIOOS)
info@pacioos.org
http://pacioos.org
http
web browser
information
publisher
Computer model simulation of hurricane storm surge inundation around Honolulu, Hawaii including half a meter of sea level rise at mean higher high water (MHHW) as its baseline water level. The study area includes the urban corridor stretching from Pearl Harbor to Waikiki and Diamond Head along the south shore of the island of Oahu. The model simulates a Category 4 hurricane, similar to Hurricane Iniki which devastated the island of Kauai in 1992, with a central pressure ranging from 910 to 970 mbar and maximum sustained winds ranging from 90 to 150 mph as it tracked from open ocean to land to open ocean again. The model result shows the Maximum of the Maximum Envelope of High Water (MEOW), or MOM, providing a worst-case snapshot for a particular storm category under "perfect" storm conditions.
Model results produced in 2014 by Dr. Kwok Fai Cheung of the department of Ocean and Resources Engineering (ORE) in the School of Ocean and Earth Science and Technology (SOEST) of the University of Hawaii at Manoa. Supported in part by the NOAA Coastal Storms Program (CSP) and the University of Hawaii Sea Grant College Program. While considerable effort has been made to implement all model components in a thorough, correct, and accurate manner, numerous sources of error are possible. These data do not consider future changes in coastal geomorphology and natural processes such as erosion, subsidence, or future construction. These data do not specify timing of inundation depths and are not appropriate for conducting detailed spatial analysis. The entire risk associated with the results and performance of these data is assumed by the user. These data should be used strictly as a planning reference and not for navigation, permitting, or other legal purposes.
Open Geospatial Consortium Web Coverage Service (WCS)
1
-158.1
-157.79991138
21.240000000000002
21.40005924
tight
GetCapabilities
http://geo.pacioos.hawaii.edu/geoserver/PACIOOS/hi_csp_hono_hurflood_slrhm/ows?service=WCS&version=1.0.0&request=GetCapabilities
OGC:WCS
OGC-WCS
Open Geospatial Consortium Web Coverage Service (WCS). Supported WCS versions include 1.0.0, 1.1.0, and 1.1.1. Supported output formats include GeoTIFF, GIF, JPEG, PNG, or TIFF.
download
Hurricane Storm Surge Inundation With 0.5-m Sea Level Rise: Honolulu, Hawaii
2014-09-26
creation
2014-09-26
issued
2014-09-26
revision
Kwok Fai Cheung
University of Hawaii at Manoa
cheung@hawaii.edu
http://www.soest.hawaii.edu/ore/people/faculty/kwok-fai-cheung/
http
web browser
information
originator
Pacific Islands Ocean Observing System (PacIOOS)
info@pacioos.org
http://pacioos.org
http
web browser
information
publisher
Computer model simulation of hurricane storm surge inundation around Honolulu, Hawaii including half a meter of sea level rise at mean higher high water (MHHW) as its baseline water level. The study area includes the urban corridor stretching from Pearl Harbor to Waikiki and Diamond Head along the south shore of the island of Oahu. The model simulates a Category 4 hurricane, similar to Hurricane Iniki which devastated the island of Kauai in 1992, with a central pressure ranging from 910 to 970 mbar and maximum sustained winds ranging from 90 to 150 mph as it tracked from open ocean to land to open ocean again. The model result shows the Maximum of the Maximum Envelope of High Water (MEOW), or MOM, providing a worst-case snapshot for a particular storm category under "perfect" storm conditions.
Model results produced in 2014 by Dr. Kwok Fai Cheung of the department of Ocean and Resources Engineering (ORE) in the School of Ocean and Earth Science and Technology (SOEST) of the University of Hawaii at Manoa. Supported in part by the NOAA Coastal Storms Program (CSP) and the University of Hawaii Sea Grant College Program. While considerable effort has been made to implement all model components in a thorough, correct, and accurate manner, numerous sources of error are possible. These data do not consider future changes in coastal geomorphology and natural processes such as erosion, subsidence, or future construction. These data do not specify timing of inundation depths and are not appropriate for conducting detailed spatial analysis. The entire risk associated with the results and performance of these data is assumed by the user. These data should be used strictly as a planning reference and not for navigation, permitting, or other legal purposes.
Open Geospatial Consortium Web Map Service (WMS)
1
-158.1
-157.79991138
21.240000000000002
21.40005924
tight
GetCapabilities
http://geo.pacioos.hawaii.edu/geoserver/PACIOOS/hi_csp_hono_hurflood_slrhm/ows?service=WMS&version=1.3.0&request=GetCapabilities
OGC:WMS
OGC-WMS
Open Geospatial Consortium Web Map Service (WMS). Supported WMS versions include 1.1.1 and 1.3.0. Supported map formats include AtomPub, GeoRSS, GeoTIFF, GIF, JPEG, KML/KMZ, PDF, PNG, SVG, and TIFF. Supported info formats include GeoJSON, GeoJSON-P, GML, HTML, and plain text.
download
Hurricane Storm Surge Inundation With 0.5-m Sea Level Rise: Honolulu, Hawaii
2014-09-26
creation
2014-09-26
issued
2014-09-26
revision
University of Hawaii Sea Grant College Program
https://seagrant.soest.hawaii.edu
http
web browser
information
originator
Pacific Islands Ocean Observing System (PacIOOS)
info@pacioos.org
http://pacioos.org
http
web browser
information
distributor
Computer model simulation of hurricane storm surge inundation around Honolulu, Hawaii including half a meter of sea level rise at mean higher high water (MHHW) as its baseline water level. The study area includes the urban corridor stretching from Pearl Harbor to Waikiki and Diamond Head along the south shore of the island of Oahu. The model simulates a Category 4 hurricane, similar to Hurricane Iniki which devastated the island of Kauai in 1992, with a central pressure ranging from 910 to 970 mbar and maximum sustained winds ranging from 90 to 150 mph as it tracked from open ocean to land to open ocean again. The model result shows the Maximum of the Maximum Envelope of High Water (MEOW), or MOM, providing a worst-case snapshot for a particular storm category under "perfect" storm conditions.
Model results produced in 2014 by Dr. Kwok Fai Cheung of the department of Ocean and Resources Engineering (ORE) in the School of Ocean and Earth Science and Technology (SOEST) of the University of Hawaii at Manoa. Supported in part by the NOAA Coastal Storms Program (CSP) and the University of Hawaii Sea Grant College Program. While considerable effort has been made to implement all model components in a thorough, correct, and accurate manner, numerous sources of error are possible. These data do not consider future changes in coastal geomorphology and natural processes such as erosion, subsidence, or future construction. These data do not specify timing of inundation depths and are not appropriate for conducting detailed spatial analysis. The entire risk associated with the results and performance of these data is assumed by the user. These data should be used strictly as a planning reference and not for navigation, permitting, or other legal purposes.
Open Geospatial Consortium Web Map Service - Cached (WMS-C)
1
-158.1
-157.79991138
21.240000000000002
21.40005924
tight
GetCapabilities
http://geo.pacioos.hawaii.edu/geoserver/PACIOOS/gwc/service/wms?service=WMS&version=1.1.1&request=GetCapabilities&tiled=true
OGC:WMS-C
OGC-WMS-C
Open Geospatial Consortium Web Map Service - Cached (WMS-C). Use of WMS-C is similar to traditional WMS but with the addition of the "tiled=true" parameter, which triggers GeoServer to pull map tiles from GeoWebCache if they have been previously generated. This can dramatically improve performance, especially for larger datasets. Supported map formats include JPEG and PNG. Supported info formats include GeoJSON, GML, HTML, and plain text.
download
Pacific Islands Ocean Observing System (PacIOOS)
info@pacioos.org
http://pacioos.org
http
web browser
information
publisher
http://geo.pacioos.hawaii.edu/geoserver/
http
GeoServer
This URL provides access to this dataset via GeoServer, including multiple output formats and an OpenLayers viewer.
download
http://geo.pacioos.hawaii.edu/geoexplorer/
http
GeoExplorer
This URL provides a viewer for this dataset.
download
dataset
2014-09-26T00:00:00Z OGC web services (WMS and WFS) enabled by PacIOOS via GeoServer. Original data from source provider may have been reformatted, reprojected, or adjusted in other ways to optimize these capabilities.
This record was translated and enhanced from GeoServer OGC Web Services (OWS) using PacIOOS software.