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®®
© 2011 Open Geospatial Consortium, Inc.© 2011 Open Geospatial Consortium, Inc.
GeoWeb on Mobile Internet GeoWeb on Mobile Internet
George Percivall
Chief Architect
Open Geospatial Consortium
OGC®
GeoWeb on Mobile Internet GeoWeb on Mobile Internet
• Geospatial data on web now common and transformative – Access to information for any location and make plans based on it – From mapping/navigation to advanced environmental studies – GeoWeb enabled by open standards
• GeoWeb moving to mobile internet platforms– Soon, if not already, predominant method to access the Internet. – Dramatic advances in communications and handheld devices.
• Multiple generations of GeoWeb and Mobile– Going beyond initial generation of Location Based Services – Recent social networking based on location– But, its not just about maps, directions and checkin. – Enable augmented understanding of our geospatial reality
© 2011 Open Geospatial Consortium, Inc.
OGC®
OGC bSa
W3C
IETF
Standards
OASIS
Today’s Internet
The emerging Internet of things:-- indoor/outdoor location-- sensor webs-- building information models-- location apps-- location marketing-- smart grid
GeoWeb on Mobile Internet GeoWeb on Mobile Internet
OGC®
OGC’s Mobile Internet Standards InitiativeOGC’s Mobile Internet Standards Initiative
OGC Mobile Initiative
• Location, coordinates and spatial models
• Mobile communications• Mobile web development• Augmented Reality• Internet of Things• Sensor Webs
Today’s Talk
1. Spatial Models and
Navigation
2. Visualization and
Augmented Reality
3. Sensors Webs and
Internet of Things
© 2011 Open Geospatial Consortium, Inc.
OGC®
Small
Large> 10 Km > 100 m > 1 m < 1 m
Geographic Scale
Environmental Scale
VistaScale
TableScale
Evolution of Space Scale in StandardsEvolution of Space Scale in Standards
Jiyeong Lee, University of Seoul, 2009 OGC TC/PC Meetings, Mountain View, CA, USA
OGC®
CityGML - 3D Urban Models
Source; Thomas Kolbe, Berlin TU • Urban Planning / Operations• Emergency Mgt / Response• Transportation / Routing / Logistics• Indoor navigation• Retail Site analysis• Sustainable / Green Communities• City Services Management• Noise abatement• Telecommunications placement• Many other uses…
Source: GTA Geoinformatik GmbH, www.gta-geo.de
© 2011 Open Geospatial Consortium
OGC®
Outdoor and Indoor Routing in Outdoor and Indoor Routing in OGC Testbed OWS-6OGC Testbed OWS-6
© 2009, Open Geospatial Consortium, Inc. 7
Figure courtesy HitachiFigure courtesy Hitachi
• Network topology for CityGML• WMS interface• CityGML dataset for demo
scenario
OWS-6 Outdoor and Indoor 3D Routing Services Engineering Report, OGC document 09-067r2
OGC®
Requirements and Space-Event Modeling Requirements and Space-Event Modeling for Indoor Navigationfor Indoor Navigation
• Support for multiple localization methods/infrastructures – This includes support for arbitrary indoor sensor technologies and their
abstraction, e.g. WiFi, RFID, Bluetooth, or Infrared as well as support for the ad-hoc selection of technologies used by the portable end-user device.
• Support for different navigation contexts – The navigation context comprises the type of locomotion, navigation
constraints according to different criteria (e.g.: topographic/geometric constraints, such as door widths, opening directions of doors, zonal constraints such as security zones, or temporal access constraints such as opening hours) and the supported localization technique.
• 3D topographic representation of the interior built environment– This is required for route planning and derivation of navigable route section from a
model of the indoor built-up space. The representation should avoid duplicating existing concepts and, thus, should be com- plementary to existing standards like CityGML, IFC, X3D, ESRI BISDM, etc.
© 2011 Open Geospatial Consortium, Inc.
“Requirements and Space-Event Modeling for Indoor Navigation”Editors: Claus Nagel, Thomas Becker, Robert Kaden, Ki-Joune Li, Jiyeong Lee, Thomas H. KolbeOGC 10-191r1 Discussion Paper
OGC®
Proposed Indoor Navigation Model
© 2011 Open Geospatial Consortium, Inc.
Floor(Room 3)
Room 1
Room 2
Doors
Doors
WiFi B
WiFi A
Request for comments on OGC discussion paper:"Requirements and Space-Event Modeling for Indoor Navigation”http://www.opengeospatial.org/pressroom/pressreleases/1369
Multilayered Space Model •UML Model•XML Schema
OGC®
Visualization of Geospatial InformationVisualization of Geospatial Information
• Web Map Service (WMS)– Most mature and implemented OGC Web Service standard
• Web Map Tiling Service (WMTS)– WMS with requests using tiles
• Style Layer Descriptor (SLD) and Symbol Encoding (SE)– Symbol encodings and request structures for styling WMS
responses
• KML– Formerly Keyhole Markup Language
• 3D portrayal– Graphics-based and Image-based
OGC®
OGC KMLOGC KML
Copyright © 2010, Open Geospatial Consortium, Inc.
Google contributed KML to become an open standard for geobrowsers
OGC®
Augmented Reality Markup Language (ARML)Augmented Reality Markup Language (ARML)
• KML adapted to Augmented Reality (AR)
• Defined in 2009 with Wikitude 4
• Proposed by Mobilizy
© 2011 Open Geospatial Consortium, Inc.
ARML to be presented to OGC, June 2011 meeting byMartin Lechner, CTO, Mobilizy
OGC®
OGC 3D Portrayal Interoperability Experiment
OGC Discussion Papers: Web 3D Service (W3DS): Graphics-based portrayal service Web View Service (WVS): Image-based portrayal service
OGC®
Internet of ThingsInternet of Things
• The Internet of things, also known as the Internet of objects, refers to the networked interconnection of everyday objects (Wikipedia)
• A new era of ubiquity, where – “Users” of Internet will be counted in billions – Humans may become the minority as generators and
receivers of traffic. – Most traffic will flow between devices and all kinds of
“things”, thereby creating a much wider and more complex Internet of Things.(From “The Internet of Things”, ITU Internet Report 2005)
© 2011 Open Geospatial Consortium, Inc.
OGC®
Internet of ThingsInternet of Things
Connecting our world with accessible networks is scaling to trillions of everyday objects
• CeNSE, Planetary Skin, Smarter Planet, others
• The location of all objects will be known
• Relevant technologies– IPv6
– Mobile Communications
– NFC – Tags – EPC Global
– Sensor Webs
© 2011 Open Geospatial Consortium, Inc.
Stephan Haller, SAP
OGC®
OGC Sensor Web EnablementOGC Sensor Web Enablement
• Sensors connected to and discoverable on the Web• Sensors have position & generate observations• Sensor descriptions available • Services to task and access sensors• Local, regional, national scalability• Enabling the Enterprise
16
Webcam
EnvironmentalMonitor
IndustrialProcessMonitor
StoredSensor
Data
TrafficMonitoring
Satellite-borneImaging Device
Airborne Imaging Device
HealthMonitor
StrainGauge
TempSensor
AutomobileAs Sensor Probe
OGC®
Sensor Web Enablement - Basic VisionSensor Web Enablement - Basic Vision
• Quickly discover sensors and sensor data (secure or public) that can meet my needs – based on location, observables, quality, ability to task, etc.
• Obtain sensor information in a standard encoding that is understandable by my software and enables assessment and processing without a-priori knowledge
• Readily access sensor observations in a common manner, and in a form specific to my needs
• Task sensors, when possible, to meet my specific needs
• Subscribe to and receive alerts when a sensor measures a particular phenomenon
OGC®
OGC SWE SpecificationsOGC SWE Specifications• Information Models and Schema
– SWE Common – common data models used throughout SWE specs
– Sensor Model Language (SensorML) - Models and schema for observation processes: support for sensor components and systems, geolocation, response models, post measurement processing
– Observations and Measurements (O&M) – Core models and schema for observations; archived and streaming
• Web Services
– Sensor Observation Service - Access Observations for a sensor or sensor constellation, and optionally, the associated sensor and platform data
– Sensor Alert Service – Subscribe to alerts based upon sensor observations
– Sensor Planning Service – Request collection feasibility and task sensor system for desired observations
• Version 2.0 of SWE Specifications currently being released
OGC®
Model of a Sensor SystemModel of a Sensor System
Copyright © 2007, Open Geospatial Consortium, Inc., All Rights Reserved.
Sensor Web Enablement Architecture, OGC document 06-021r4http://portal.opengeospatial.org/files/?artifact_id=29405
OGC®
Observations and MeasurementsObservations and Measurements
• An observation feature binds a result to a feature of interest, upon which the observation was made
• Observation - act of observing a property or phenomenon, with the goal of producing an estimate of the value of the property.
• Observations are modeled as Features within the context of the General Feature Model [ISO 19101, ISO 19109]
Copyright © 2007, Open Geospatial Consortium, Inc., All Rights Reserved.
OGC®
Copyright © 2009, Open Geospatial Consortium, Inc.
CatalogService
SOS
SAS
SPS
Clients
SWE Web ServicesAccess Sensor Description and
DataCommand and Task Sensor
Systems
Dispatch Sensor Alerts to registered
Users
Discover Services, Sensors,
Providers, Data
Accessible from various types of clients
from PDAs and Cell Phones to high end
Workstations
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Air quality monitoring pilotAir quality monitoring pilot
• Emission/imission modeling in Moulin, Fr (simple site) and Linz (complex site; more data sources)
• Cross border integration on French/Belgium border in Flanders
• SANY/SWE compliant systems
• Managing QA information within SOS
• Fusion & modelling services
Other data sources
Air Quality monitoring
Air quality management
Vendor independence Cross-border monitoring and alerting QA automation SANY-compliant data acquisition systems
Added-value Generic Services
Fusion Services
-temporal -spatial -≠kind of data
Visualisation Services
- Colour-coded maps - Time series
Modelling services
- diffusion - transport
SANY infrastructure services
OGC®
Debris Flow Monitoring and Forecast Sensor
GRID
GridGrid
OGC®
24
Charlie Neuman, San Diego Union-Tribune/Zuma Press
PULSENetPULSENetTMTM Applications: Atmospheric/Air Quality – Fire Applications: Atmospheric/Air Quality – Fire Monitoring/Smoke ForecastingMonitoring/Smoke Forecasting
Northrop Grumman PULSENetTM
OGC®
How to build the Internet of ThingsHow to build the Internet of Things
to create an open standards framework (interfaces and encodings) for connecting with the real world:
indoor/outdoor location
Sensor/actuator description & control
Observations/measurements
Machine-to-machine communication
Security & privacy
Publishing & discovery
Rights management
Data provenance, quality, uncertainty
Corporations:IT platform providersSearch companiesCarriersRouter companiesCell phone manufacturersSensor companiesGovernment agencies/officesNon-governmental organizationsResearch centersUniversities
participate in cooperatingStandards
Development Organizations…
OGCIETFW3CbSaOASISIEEEIECISOITUetc.
who manage rapid standards
prototyping, testing &deployment activities…
Testbeds
Interoperability experiments
Plugfests
Pilot projects
Stakeholders…
OGC®
OGC’s Mobile Internet Standards InitiativeOGC’s Mobile Internet Standards Initiative
Topics
• Location, coordinates and spatial models
• Internet of Things• Mobile development• Mobile communications• Sensor Webs• Augmented Reality
Methods
• COM.Geo Workshop• Standards Liaisons• OGC Specification
Program– Discussion Papers– Working Groups– Standards
• OGC Interoperability Program– Mobile/IoT Testbed
© 2011 Open Geospatial Consortium, Inc.
OGC®
For Details on OGC Standards…For Details on OGC Standards…
• OGC Standards– Freely available– www.opengeospatial.org/standards
• OGC Reference Model (ORM)– Overview of OGC Standards Baseline– Resource for defining architectures for specific applications– www.opengeospatial.org/standards/orm
George Percivall, gpercivall at opengeospatial.org
Copyright © 2010, Open Geospatial Consortium, Inc.