McIDAS: The First True GIS Mashup Tommy Jasmin UW / CIMSS / SSEC McIDAS Users’ Group Meeting June 9, 2015.

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Presentation transcript:

McIDAS: The First True GIS Mashup Tommy Jasmin UW / CIMSS / SSEC McIDAS Users’ Group Meeting June 9, 2015

Except GIS means many things So let’s assume we mean “geospatial data” Geospatial Data: Data with “when” and “where” Must be able to find and retrieve that data Must be able to visualize and analyze that data Turning Earth-located data into useful information

Mashup Defined

Considered a very early GIS mashup 1995: World Wide Earthquake Locator 1.Used Xerox PARC mapping system 2.Provided real-time earthquake data with tectonic plate boundaries

Well wait a minute…

Dr. John Snow cholera map, London, 1854

A True Historical Mashup in McIDAS Satellite image with temperature contours

McIDAS Prototype (Windco) D! F!

Another early McIDAS Mashup Satellite image with radar data overlay

And then came Dimensions 3 and 4 4D Visualization of Presidents’ Day Storm, 19 Feb 1979

VisAD gave us interoperability, 3D, 4D, 5D HDF NetCDF GRIB Data Adapter Data Adapter Data Adapter Data Adapter Data Adapter Data Adapter VisAD Abstract Data Model VisAD Abstract Data Model VisAD Abstract Display Model VisAD Abstract Display Model Abstract Data Model hides file format details Abstract Display Model hides graphics library, other display details 2D, 3D, 4D, 5D

Satellite, Lidar, and Radar Data Together CALIPSO Lidar, CloudSat Radar, and MODIS Infrared Satellite data Credit: Kris Bedka, NASA Langley

Why is interoperability so important? 1. The current accumulation rate of geospatial data We have accumulated more geospatial data in the last 10 years than in all of history. Most of us are now walking consumers and producers of geospatial data Think sampling rates (e.g. flux measurements, lidar) 1 sub-meter full Earth satellite image = 1 PB

Why is interoperability so important? 2. Creation and distribution of geo data is becoming much easier VIIRS DNB Global Composite generated entirely from April 2015 data 1.At present, 0.1 degree spatial resolution (much lower than best possible) 2.Many false positives from auroras and moon illumination

A framework for automatic VIIRS image compositing VIIRS Archive VIIRS Archive Full granule Clip each edge of swath Generate cloud mask Data passed on to final product Study Period: April 1 - April (~1.3 TB) For each 12 hour period, fetch all nighttime DNB granules, and VIIRS CM granules. Process, delete, repeat. ~45 GB / day, ~2,200 files For each granule, Process (Polar2Grid) View if needed (McIDAS-V) Completely automated, in a single extensible script! sips.ssec.wisc.edu

Using McV to tune DNB algorithm

Ex 1) Why not mash this up? Whale Shark migration route from KML file Random VIIRS SST granule

Ex 2) Why not mash this up? What if we intersect a tornado track with US Census Data?

Going forward SOA: Service Oriented Architecture The notion that any computer application can be broken down into components, many of them provided by services distributed on the Internet sunshine:~ tommyj$ cat /etc/services | grep mcidas mcidas 112/udp # McIDAS Data Transmission Protocol mcidas 112/tcp # McIDAS Data Transmission Protocol For SOA to work: 1.Need standards, so systems can be interoperable 2.Need easy way to search for services that meet specific requirements OGC: Open Geospatial Consortium WMS: Geo-referenced map image layers (what RealEarth uses) WFS: Vector data, e.g. map outlines (disputed areas, reefs, etc.) WCPS: Similar to ADDE, sensor data with processing and standards

An Obligation to Collaborate