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IoT Meets Geospatial
Geoweb Summit #8Raj Singh
Open Geospatial ConsortiumMay 22, 2014
© 2014 Open Geospatial Consortium
OGC®
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The OGC at a Glance
Not-for-profit, international voluntary consensus standards organization; leading development of geospatial standards
© 2014 Open Geospatial Consortium
• Founded in 1994.
• 470+ members and growing
• 40 standards
• Hundreds of product implementations
• Broad user community implementation worldwide
• Alliances and collaborative activities with SDO’s and professional associations
Africa, 2 Asia Pacific, 83
Europe 202
Middle East 11
North America 176
South America 4
OGC®
Commercial41%
Government18%
NGO10%
Research7%
University24%
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The OGC at a Glance
Not-for-profit, international voluntary consensus standards organization; leading development of geospatial standards
© 2014 Open Geospatial Consortium
• Founded in 1994.
• 470+ members and growing
• 40 standards
• Hundreds of product implementations
• Broad user community implementation worldwide
• Alliances and collaborative activities with SDO’s and professional associations
OGC®
OGC/ISO Standards: Baseline for Spatial Data Infrastructure
• ISO 19115: Metadata• Web Map Service (WMS) • Web Feature Service (WFS)• Web Coverage Service (WCS)• Web Map Context• Style Layer Descriptor (SLD)• Catalogue (CSW)• Geography Markup Language
(GML)• KML• Web Processing Service (WPS)
The GeoWeb is enabled by standards:
“The Geospatial Web is about the complete integration and use of location at all levels of the internet and the web.”
Dr. Carl ReedCTO OGC
© 2014 Open Geospatial Consortium
OGC®
Why Geo?
• What is IoT?– abstracting real-world
phenomena into data streams– combining these data to create
synergistic insights, especially based on nearness (contextual awareness)
– visualizing the results• This is GIS!
© 2014 Open Geospatial Consortium
McHarg’s method involved superimposing layers of geographical data (e.g. environmental and social factors) so that their spatial intersection (relationships) can be used in making land use decisions. This core idea, McHarg’s planning methodology, lead to the development of Geographic Information System (GIS) software tools.
OGC®
IoT is finally arriving: it’s bubbling up from the grassroots.
• IoT: long-prophesied phenomenon of everyday devices talking to one another — and us — online– Back in the ’90s, big companies built systems to do tricks like this,
but they were expensive, hard to use, and vendor-specific.
• Hackers now using increasingly inexpensive sensors and open source hardware, add intelligence to ordinary objects. – Sensor prices going down; sizes going down. Only limit is your
imagination.– Cloud services – “If This Then That” or Cosm - let devices interact
in unexpected ways
• IoT has reached the “Apple II stage” – when a new technology finally becomes easy enough to use
that thousands of people start using it.http://www.wired.com/opinion/2012/12/20-12-st_thompson/
© 2014 Open Geospatial Consortium
OGC®
OGC Sensor Web Enablement Standards
Enable discovery and tasking of sensor assets, and the access of sensor observations• Sensor Model Language (SensorML)
• Sensor Planning Service (SPS)
• Sensor Observation Service (SOS)
• PUCK
-- Complementary Standards --
• IEEE 1451 smart sensor standard
• OASIS (alert) standards
© 2014 Open Geospatial Consortium
OGC®
Large-scale Opportunistic Sensing
• Smartphones to be pocket seismometers – Right now, can detect earthquakes above Magnitude 5.0.
With better accelerometers in smartphones hope to detect smaller ones
– precious seconds' advance notice that a big trembler is on its way
• pressureNET – Global network of user-contributed atmospheric pressure
readings.– App displays data as markers on map and graphed over
time– To improve weather forecasting models.
• IoT devices measure Air quality (CO, NO2) – AirCasting - Air Quality Egg
http://www.bbc.co.uk/news/science-environment-20531304
http://www.aircasting.org/
http://pndv.cumulonimbus.ca
© 2014 Open Geospatial Consortium
OGC®
IoT service A
IoT service B
IoT service C
IoT Service D
Application AApplication B Application C Application D
Silo A Silo B Silo C Silo D
Today: Proprietary sensor data formats and service interfacesNo “World-Wide Web of Things”
Source: Liang, University of Calgary, OGC Sensor Web Enablement Internet Of Things Standards Working Group © 2014 Open Geospatial Consortium
OGC®
Tomorrow: Mashing-up the IoT Data Infrastructure
Source: Liang, University of Calgary, OGC Sensor Web Enablement Internet Of Things Standards Working Group
http://www.opengeospatial.org/projects/groups/sweiotswg
© 2014 Open Geospatial Consortium
OGC®
OGC SensorThings for IoT
• https://github.com/ogc-iot/
• Builds on OGC Sensor Web Enablement (SWE) standards that are operational around the world
• Builds on Web protocols; easy-to-use RESTful style • OGC candidate standard for open access to IoT
devices
http://ogc-iot.github.io/ogc-iot-api/datamodel.html© 2014 Open Geospatial Consortium