Philadelphia, May 2–4, How OGC Location Service Standards Enable Integration with Enterprise IT Carl Reed, PhD CTO, Open Geospatial Consortium May 2, 2005

What is the OGC? The Open Geospatial Consortium, inc. (OGC) is a non-profit international voluntary consensus standards organization that is leading the development of standards for geospatial and location based services. –The OGC facilitates a consensus process in which government, private industry, and academia collaborate to create open and extensible software application programming interfaces for geospatial and other mainstream information technologies

The OGC vision enables a global geospatial and IT community Composed of many collaborating organizations... authoring and publishing open standards for geospatial interoperability

Some OGC Members providing solutions in LBS space Autodesk Oracle MapInfo Intergraph ESRI Navteq TeleAtlas Ionic Enterprises CPdQ Webraska TelContar Northrup Grumman Boeing Ordnance Survey DeLorem Mobile GIS FEMA NGA Others

What is Spatial Interoperability? Interoperability is the ability to: –Link business processes across organisational lines and cost-effectively share information resources, –Find data, information and processing tools no matter where they are physically located, and –Seamlessly operate no matter what type of computer system or display device is being used, whether local or remote Also known as “on demand access” –Real time –As and when needed –Vendor and content model independent –Accessing the source of operational data “My stuff operates with your stuff, and I don’t care where it is, how it works and what the format is”

“Invisible Success” of the enabling framework MIC alert: storm warning for Liverpool area. Take precautions to protect your home and car from damage.

OGC Standards and the Location Services Market

The OGC OpenLS Interface Suite OGC - Open Location Services – Core Interfaces defined as XML for Location Services (XLS) Supports both HTTP and SOAP. –OpenLS ADTs –OpenLS Directory Service –OpenLS Geocoder –OpenLS Reverse Geocoder –OpenLS Presentation Service –OpenLS Route Service –OpenLS Gateway Service (Interface to OMA MLP) And of course GML (Geography Markup Language) for encoding payloads of geospatial content.

Role of OpenLS in LS Server Architecture Provide Subscribers with Location-Based Application Services / Content On the go At work or home Portal & Service Platforms GeoMobility Server GMLC/MPC Internet Navigation Discovery Presentation Maps Routes Directories Points of Interest Addresses CORE NETWORK Mobile Switch Position Determination Methods: LDT/PDE: cell/ID/sector, A-GPS, E-OTD, AOA, TDOA, TOA

Example LBS Technology Providers Using OpenLS Interfaces Hutchison 3G – Location Enabled Application Autodesk – LocationLogic ESRI – Arc Location Services TelContar – Drill Down Server version 3.2 Oracle - Oracle 9iAS Wireless Version and Oracle Application Server 10g Wireless Edition(Version 9.0.4) Ionic Enterprise – RedSpider Lobos (LOcation Based OGC Solution) MapInfo – Envinsa 3.0 (SOAP and HTTP)

Implementations of OpenLS Intergraph – Will be part of next release of LocationServer and GeoMedia WebMap Webraska - SmartZone Geospatial Platform (Java and SOAP) LBS research Team, Telematics Research Division, ETRI, South Korea SAM (Mobile Services and Applications) is a CPqD Project that aims to develop Location Based Services to public administration (Presentation, Gateway, and Geocoding) Sprint – Mobility Framework Verizon Others...

Example Application that Uses Standard Interfaces

Benefits of moving to a standards based LBS architecture

Benefits and Value of using standard interfaces and protocols for LBS Integrate (fuse) many information resources on demand for better customer experience and decision support. Protect investment in legacy systems More easily respond to changes in the LBS infrastructure Change technology providers as well as better protect and enhance relationships with existing partners. Access and utilize content from many partners without requiring a common format or model. –Can quickly wrap local or remote routing and geocoding engines of any vendor (comment from a user) More effectively plug into larger information infrastructures Reduce coding development and maintenance costs

Cost reduction Initially the task of adding security to a Web service took 20,379 lines of code; adding reliable messaging took 5,988 lines of code and adding transactions took 25,507 lines of code, Rudder said. With an additional 4,442 for infrastructure plumbing, the total came to more than 56,000. Now security, reliable messaging, and transactions each require one line of code, he said. –Referring to the value of using the WS-Security and WS-Discovery standards

OGC Collaboration with other Standards Orgs OMA MLP 3.1 uses OGC standards and models for geometry and coordinate reference system expression. A new MOU defines how OGC and IEEE 1451 (sensors) collaborate and work towards harmonizing our standards work. Work with OASIS in several areas. Work with ISO TC 211 in numerous joint work items. The new Liberty Alliance geo-location Web service interface references MLP 3.1 and therefore OGC standards. Collaborating with IETF Geopriv WG. The proposed enhancements to PIDF for location uses OGC GML encoding.

Webcam Environmental Monitor Stored Sensor Data Satellite-borne Imaging device Health Monitor Airborne Imaging Device Business Intelligence Analyst Stored Imagery Data Stored Vector Data Internet and Intranet Open interface ] [ Integration with Sensor Nets

Support Emergency Notification & Incident Reporting Situation Notification Service Common means for sharing location-based emergency notification messagesCommon means for sharing location-based emergency notification messages Collaboration with OASISCollaboration with OASIS Incident Reports Location-based incident reports for cross-jurisdictional useLocation-based incident reports for cross-jurisdictional use Collaborate with DOJCollaborate with DOJ Projects with ORNL Emergency Command Center

Summary – the value of good standards Enable innovation Protect legacy and future investments Enable integration and interoperability Future proof current applications Leverage value of legacy applications and infrastructure Flexibility of choice and implementation Enable co-opetition Increase partner loyalty Increase win-win in partner relationships Enables technology convergence

Thank you for your attention Carl Reed, PhD Open Geospatial Consortium