Événement Oracle Spatial 2008 et les influenceurs du milieu géospatial - English Presentation

Bienvenue Événement Oracle Spatial et les « influenceurs » du milieu géospatial Québec 18 février 2008 Montréal 19 février 2008

Agenda 8h00 : Accueil et inscription 8h30 : Mot de bienvenue 8h45 : Les influenceurs du domaine géospatial (anglais) Sam A. Bacharach – Open Geospatial Consortium 9h30 : Présentation générale d’Oracle Spatial (anglais) Xavier Lopez - Oracle 10h15 : Capsule Consortech Denis Piché – Solutions Consortech Inc. 10h30 : Pause café 10h50 : Nouveautés et orientation des développements d’Autodesk et d’Oracle (anglais) Geoff Zeiss – Autodesk 11h35 : Capsule Consortech Denis Piché – Solutions Consortech Inc. Événement Oracle Spatial et les influenceurs du milieu géospatial

Agenda (suite) 11h50 : Dîner libre 13h15 : FME 2008 et un peu plus… Don Murray – Safe Software 14h00 : Capsule Consortech Denis Piché – Solutions Consortech Inc. 14h15 : Pause 14h30 : Les défis et l'intérêt de passer du 2D au 3D en cartographie et en modélisation Xavier Lopez – Oracle 15h15 : Témoignage : Oracle Spatial, une pièce maîtresse au MRNF Carl Pelletier – Ministère des Ressources Naturelles et de la Faune du Québec 16h00 : Conclusion et tirage d’un GPS Événement Oracle Spatial et les influenceurs du milieu géospatial

Merci à nos partenaires Partenaire média : Événement Oracle Spatial et les influenceurs du milieu géospatial

Les influences dans le milieu géospatial Événement Oracle Spatial et les influenceurs du milieu géospatial

Influence du 3D dans les SIG • Convergence du 3D et des SIG • Approche BIM (Building Information Modeling) Événement Oracle Spatial et les influenceurs du milieu géospatial

Consortech et les influenceurs • Intégrateur pro-actif avec Oracle Spatial • À l’affût des technologies des grands influenceurs Événement Oracle Spatial et les influenceurs du milieu géospatial

Conférence Les influenceurs du domaine géospatial - M. Sam A. Bacharach, Directeur principal, diffusion Open Geospatial Consortium Événement Oracle Spatial et les influenceurs du milieu géospatial

® Influencers in the GeoSpatial community Sam A. Bacharach Executive Director Outreach sbacharach@opengeospatial.org +1 703-352-3938 http://www.opengeospatial.org

Why Standards? “Standardization in the GeoWeb is going to be really important if you want to stimulate innovation,” Vinton Cerf, co-designer Of TCP/IP and the “Father of the Internet” on 25 July 2007 to the GeoWeb 2007 Conference in Vancouver, BC ® OGC

What is the OGC? • Open Geospatial Consortium (OGC) – Not-for-profit, international voluntary consensus standards organization – Founded in 1994, Incorporated in US and UK OGC Mission To lead in the development, promotion and harmonization of open spatial standards, to support their effective implementation and ICT infrastructure architectures worldwide, and to advance the formation of new market opportunities for spatial information and processing services. ® OGC

The OGC Vision A world in which all people and institutions benefit from spatial information resources and supporting technology services. ® OGC

The Growth of OGC • Over 345 members worldwide – 33 countries & 5 continents – 142 European members - 19 countries – 35+ Asia-Pacific members - Japan, Republic of Korea, Australia, China, and Thailand • Twenty four (up from 22 last year) approved, publicly available Implementation Specifications (+ several updates posted) • Broad participation with other industry and international standards organizations • 30+ candidate Implementation Specifications in work • OGC Reference Model defines interoperable geo architecture • Rapidly growing list of vendor implementations – http://www.opengeospatial.org/resources/?page=products ® OGC

Key members • Principal Members have voting rights in various committees (Planning, Technical) and to elect members of the OGC Board of Directors : – Oracle – Autodesk – And other large organizations such as Google, Microsoft , GeoConnexion (Natural Resources Canada) … • Associate Members participate in working groups and subcommittees of the TC, as well as in OGC Interoperability Initiatives : – Safe Software – And many other IT and GIS organisations across the world ® OGC

Other Canadian Members 1. British Columbia Institute of 11. Laval University, Department of Technology Geomatics Sciences 2. CARIS 12. Mining Innovation 3. City of Toronto Rehabilitation Board and 4. Compusult Limited Applied Research Corp. 5. CubeWerx 13. Niagara College 6. Emergeo Solutions, Inc. 14. OPTEX, Inc. 7. ESRI Canada 15. PCI Geomatics, Inc. 8. Galdos Systems 16. Province of Newfoundland & Labrador 9. Geoconnections – Natural Resources Canada 17. Safe Software, Inc. 10. Geomatics & Cartographic 18. Sierra Systems Group, Inc. Research Centre, Carleton 19. Sunertek, Inc. University 20. Town of Richmond Hill ® OGC

Notable Canada Contributions • PCI Geomatics is a founding member of OGC • Gardels award winners: – Ron Lake, 2002 – Edric Keighan, William Lalonde, Peter Vetranos, 2003 • Geoconnections is a significant sponsor of our Interoperability Program testbeds and pilots – CGDI Pilot was just the latest of a long string from 2000 • Not to mention -- – Tens of thousands of hours put into the process – Numerous programs that use OGC standards – An active geospatial community that pushes the envelope • A fine balance between US do-it-now and EU think-now methods of building out new technology ® OGC

OGC Alliance Partnerships • World Wide Web Consortium (W3C) • Digital Geospatial Information Working Group (DGIWG) • International Organization for Standards (ISO) • OASIS • Object Management Group (OMG) • Open Mobile Alliance (OMA) • Geospatial Information & Technology Association (GITA) • Web3D Consortium • Simulation Interoperability Standards Organization (SISO) • International Alliance for Interoperability (IAI) • IEEE Technical Committee 9 (Sensor Web) • Spatial Data Infrastructure organizations (National, Regional, Global) • Federation of Earth Science Information Partners ® OGC

What Partnership Means? • We rely on ISO TC 211 for a foundation – What’s a feature? A spatial reference system? • We rely on W3C for: – The framework of web services, Semantic language (OWL-S), WSDL/SOAP/UDDI • We rely on OASIS for: – Common Alert Protocol (CAP) – Security Assertion Markup Language (SAML) • We assist our other partners – IAI – NIBS on Building Information Model, CAD/CAM – IEEE 1451 for Sensor standards – ISO TC 204 for telematics ® OGC

Approved OGC Standards 13. Simple Feature Access 2 1. Catalogue Service 2. Coordinate Transformation 14. Simple Features CORBA 3. Filter Encoding 15. Simple Features OLE/COM 4. Geographic Objects 16. Styled Layer Descriptor 5. Geography Markup Language 17. Symbology Encoding 6. GML in JPEG 2000 18. Transducer Markup Language 7. Grid Coverage Service (TML) 8. Location Services (OpenLS) 19. Web Coverage Service 9. Observations and 20. Web Feature Service Measurements (O&M) 21. Web Map Context 10. Sensor Model Language 22. Web Map Service 11. Sensor Planning Service 23. Web Processing Service 12. Simple Feature Access 1 24. Web Service Common ® OGC

What do we mean by “Open” • Freely and publicly available • Non discriminatory (nobody denied) • No license fees (All but ISO) • Vendor neutral • Data neutral • Agreed to by a formal, member based consensus process! ® OGC

What do we mean by interoperability? • \"capability to communicate, execute programs, or transfer data among various functional units in a manner that requires the user to have little or no knowledge of the unique characteristics of those units“ –Source: OGC Abstract Specification Topic 12: Services. Derived from ISO 2382-1. ® OGC

Why do you care? • Nobody saw the value of metadata five years ago and Interoperability is a new idea – The data and processing you need just in time, on time • You care because interoperability will drive your costs down and your productivity up – How many hours does it take to transform, translate and understand that “free” data you downloaded? – Are you even certain it is “fresh” after all that processing? ® OGC

De Facto How do the ‘standards’ pieces fit? IETF / W3C / IEEE OGC /OASIS Infrastructure: ISO / Software Interfaces: WSDL, UDDI, Instantiate Domain SOAP, XML and Dejure into National Orgs Infrastructure Domains: Object / Abstract Models, De Jure Content, Vocabulary Domain Infrastructure ® OGC

World Wide Web Consortium (W3C) • AJAX • HTML • HTTP • PNG • RDF • SOAP / WSDL / UDDI • SVG • URI / URL • XML et al ® OGC

ISO TC 211- 1 • ISO/TC 211 Geographic information/Geomatics is responsible for the ISO geographic information series of standards. Further information about the committee can be found at www.isotc211.org. • Abstract Standards that define the overall framework of geographic information • Content Standards that define the information requirements ® OGC

ISO TC 211- 2 ISO 19101 – Reference model. ISO 19104 – Terminology ISO 19105 – Conformance and testing ISO 19106 – Profiles ISO 19107 - Spatial schema ISO 19108 - Temporal schema ISO 19110 - Feature cataloguing methodology ISO 19111 - Spatial referencing by coordinates ISO 19112 - Spatial referencing by geographic identifiers ISO 19113 - Quality principles ISO 19114 - Quality evaluation procedures ISO 19115 – Metadata ISO 19117 – Portrayal; ISO 19118 – Encoding; ISO 19119 – Services ISO/TR 19121 - Imagery and gridded data ISO/TR 19122 – Qualifications and certification of personnel ® OGC

ISO TC 211- 3 ISO 19123 - Schema for coverage geometry and functions ISO 19125-1 - Simple feature access – Common architecture ISO 19125-2 – SFA – SQL option ISO 19127 - Geodetic codes and parameters ISO 19128 - Web Map Server Interface ISO 19129 - Imagery, gridded and coverage data framework ISO 19130 - Sensor and data model for imagery and gridded data ISO 19131 - Data product specification ISO 19135 – Procedures for items registration ISO 19136 – Geography Markup Language ISO 19138 – Data quality measures ISO 19139 – Metadata – Implementation Specification ISO 19142 – Web Feature Server ® OGC

OASIS • OASIS (Organization for the Advancement of Structured Information Standards) is a not-for-profit, international consortium that drives the development, convergence, and adoption of e-business standards. • Founded in 1993, OASIS has more than 5,000 participants representing over 600 organizations and individual members in 100 countries. • Many of its standards include location elements that use GML from OGC – Common Alert Protocol (CAP) – Hospitality Availability (HAVE) – Emergency Distribution Exchange Language – Resource Management (EDXL_RM) – Customer Information Quality (CIQ) ® OGC

IEEE Geoscience and Remote Sensing Society and TC 9 (Transducers) • OGC Sensor Web Enablement family – Sensor Model Language (SensorML) – Transducer Model Language (TML) – Sensor Observation Service (SOS) – Sensor Planning Service (SPS) – Observations & Measurements (O&M) – Sensor Alert Service (SAS) – Web Notification Service (WNS) ® OGC

OGC Sensor Web Enablement Industrial Process Monitor – Sensors connected to and discoverable on the Web – Sensors have position & generate observations - Sensor descriptions available Automobile - Services to task and access sensors As Sensor Probe - Local, regional, national scalability Environmental - Enabling the Enterprise Monitor Traffic Airborne Temp Monitoring Sensor Imaging Stored Device Sensor Data Strain Gauge Webcam Satellite-borne Health ® Imaging Device Monitor OGC

In Closing • Standards are nothing more than a tool • Hundreds of traditional industries thrived because of standardization • Computers & the Internet are standardized • The consumer has the final influence: If it is not using open, consensus standards just don’t buy it! ® OGC

Conférence Présentation générale d’Oracle Spatial - M. Xavier Lopez, Directeur, Gestion de produits Oracle Événement Oracle Spatial et les influenceurs du milieu géospatial

<Insert Picture Here> Oracle Spatial Overview

Agenda • Oracle Spatial Strategy • Case Studies • A GeoSpatial Platform • Quick Look at the Technology • MapViewer & BI • 10g & 11g Spatial Features • Summary

Four Foundations ... • Products Oracle Spatial, Oracle Locator, Oracle Mapviewer SOA Architecture • Partnerships With Leading Spatial Vendors Software vendors (e.g Autodesk) Integrators, Data suppliers Service providers • Commitment To Standards Open GIS Consortium, OpenLS, ... SQL, LIF, ISO TC-211, TC-204 SQL3/MM Spatial • Integration with Oracle applications E-Business Suite Location Based Services

Oracle Spatial Partners Geospatial Tool Providers Specialised Systems Integrators Data Providers

Open Platform for Leading Applications and Tools MapInfo Leica ADE Bentley Oracle Locator / Spatial Manifold

Built on Web Services Architecture Core SOA SOA-enabled Infrastructure Services Tracking/routing Map Editing Spatial Application Applications Database Server & Services Web Portals Asset Maintenance • Traditional data • Web services • Business Logic Web Mapping • Spatial Data • Orchestration & • Industry Models Workflow • Visualization • Standards Based • Security provisioning • Interactive Editing Open GIS • Policy based resource Business Intelligence Consortium, OpenLS • Industry Specific APIs mgmt SQL, LIF, • Industry Knowledge • Workload scaling & redistribution • Packaged Solutions ISO TC-211, TC-204 • Portals • Wireless & Sensor

Mapping Agencies <Insert Picture Here> Customer Examples Canadian Mapping Center Ordnance Survey

Geospatial Systems are important for our customers Mapping Agencies and Ordnance Survey, OSI, OSNI, Statens Kartverk,USGS, NGA, US Census Bureau, Australia, NAVTEQ, Tele Cadastres Atlas, Land Registry Ireland, LR Northern Ireland, LR Scotland, Dutch Cadastre, KMS Denmark, LR Singapore Emergency Response FEMA, State Emergency Management Agencies, BT 999, UK National Flood Protection Transportation Infrastructure & Over 35 US State DoTs, Alberta Transportation, 10 Maintenance International Airports, CSX, Austria Rail, Denmark Rail, Dutch Rail, German Rail Telecommunication Services 3, BT, AT&T, Verizon, Nextel, Sprint, Cingular, Over 20 national telcos Utilities SNAM, Hydro-Quebec, RWE ,Sociéte des Eaux de Marseille, NI Water. NI Electricity, Georgia Power, Stadtwerke Augsburg, … Local Governments Vancouver, Winnipeg, Calgary, Edmonton, New York City, Chicago, Los Angeles, San Jose, Washington DC, Cleveland,Malmo, Gothenburg, Stockholm, Derbyshire CC, Hampshire, LB Havering, Nottinghamshire, Dorset… Agriculture Ireland,Poland, Italy, Greece, England, Finland, Czech, Slovakia, US EPA

Canadian Mapping Center • GeoCapacity Mapping Information System provides pan-Canadian geospatial satellite data, and maps on demand. • The system automatically ingests and corrects the best available source of satellite imagery over Canada at optimum levels of accuracy, stores them in Oracle 10g Georaster • The mapping centre offers an automated, efficient, flexible and reliable mapping system nationwide. • System developed in collaboration with Natural Resources Canada (NRCAN), PCI Geomatics, and E-Spatial

Case Study: Ordnance Survey UK Mapping Agency Requirements • Move from paper maps to on-line digital services • Move from multiple, proprietary databases (>50) to single IT architecture • Store data once, use many times • Using standards-based, commercial off-the-shelf software (COTS) • Reduce development, deployment and maintenance costs • Increase Business Agility

Oracle Spatial Technologies • Database Server - Spatial Option • 500 Million in the largest Table, 140 partitions • Single SDO_ANYINTERACT query • Global Temporary Table to store result set; GTT queried for each theme/feature type • 2 km2 query returns > 2000 rows (20 secs) • National data set query returns < 3 Million rows (45 mins) • Application Server • Java APIs • GML2 • Formatting OS MasterMap GML • 1 Billion individual features formatted per day • JGeometry • Parse GML queries into SQL queries • Process DB result set for formatting in GML2 • MapViewer • Adhoc visualisation / query tool

<Insert Picture Here> A Quick Look at the Technology

Spatial Database Capabilities Spatial Data Types Spatial Indexing Oracle11g All Spatial Data Spatial Fast Access to Stored in the Database Spatial Data Spatial Access Through SQL SELECT facility FROM facility_geom WHERE RELATE (‘facility’, sdo_gid, ‘INSIDE’, ‘com_area’, 100) = ‘INSIDE’;

A Location Query Find all nearest hospitals within 5 miles of my hotel St Thomas SQL> SELECT H.Hospital_name 5 miles 2> FROM Hospitals R, 3> Hotels H eet 4> WHERE R.Hospital_type =‘A&E’ Fi rst Str Royal 5> AND H.Hotel_name = ‘HILTON’ George Hilton 6> AND MDSYS.SDO_WITHIN_DISTANCE( 6> R.Location, H.Location, Main Street 7> ‘distance=5’) = ‘TRUE’;

Supports all Geospatial Datatypes Polygons (admin, sales territories, Locations high risk zones) Networks (points of interest) (roads, utilities) Data Imagery 3D data type (satellite imagery) Topology (city models) (data provider) LIDAR Data Type TIN Data Type

Whole Earth “Geodetic” Model • Natively operate on P3 Longitude/Latitude data • Measurements returned in meters by default P1

Oracle11g Location Features Locator Spatial • Points, lines, polys • All Locator features • Linear Referencing • 2D, 3D, 4D data • Spatial Aggregates • Spatial Operators • Coordinate Transforms • Within-distance • Spatial Relations • Network Data Model • Topology Data Model • Coordinate Systems • GeoRaster • Long Transactions Table • Geocoder Partitioning* • Spatial Analytic Functions • Object Replication* • 3d Extensions • Oracle11g Standard & • Web Services Enterprise • Oracle11g Enterprise Option Only

Enhancing Business Intelligence With Location Planning Monitoring Analysis Reporting

Oracle Spatial Features • Georaster • Network Manager • Topology • Geocoder • Linear Referencing • Spatial Analytic Functions

Geo Raster • A new data type to store raster data • Satellite images, remote sensing data • Multi-band, multi-layer • An XML schema to store Metadata • Data source, layer information • Geo Referencing information • Functionality • storage and indexing of raster data • No size limit for each raster object • Generate resolution pyramid • query and analysis • delivering to external consumers • Publish as JPEG, GIFF images

Multi Band Digital Image - Hyperspectral Support Some bands may accentuate different features

Network Manager Network Data Model • New data model to store network (graph) structure in the database • Network consists of links and nodes • Explicitly stores and maintains connectivity N1 L1 N2 L2 N3 of the network L3 -L L7 N4 L9 N5 L10 • Attributes at link and node level N • Logical or geographical network L8 L11 L4 -L L6 L5 • Provide network analysis functionality in theN7 -L6 N8 -L5 N9 database • Shortest path, connectivity analysis, etc. • Core of Oracle Semantic technologies

Topology Manager Topology Data Model and Schema • Stored persistently in database • Describes how different spatial features are related to each other • A land parcel shares the boundary with a road • Nodes, Arcs, Faces • Features built from topology primitives • Mix and match topology and feature representations • Easier to do data consistency checks in this model

Oracle 11g Geocoder • Generates latitude/longitude (points) from address • International addressing standardization • Formatted and unformatted addresses • Tolerance parameters support fuzzy matching • 100% Java, open and scalable • Record-level and batch processes • Data provided by leading data vendors

Oracle 11g Spatial Features • 3D Support • Java API • Georaster Enhancements • Network Data Model Enhancements • Web Services

<Insert Picture Here> 3D Support

Oracle Spatial 11g Enables 3D Applications Enterprise Mash-ups with 3D models AEC City Modeling Petroleum Exploration

3-D Spatial Types • 3D Vectors • City Models • Point Clouds: specialized types for large 3D points • Laser scanners etc. • TINs: Surface representations • 3D Coordinate Systems

<Insert Picture Here> Geospatial Web Services WMS, WFS, CWS

Support for OGC Web Services Open Location - Transactional Service

WMS (Web Map Service) Support • MapViewer supports all WMS 1.1.1 mandatory parameters • Including Dynamic Themes • Enhancements • Supports a customizable SDO to EPSG SRID mapping table (file) • Enables the WMS user to use EPSG SRIDs when interacting with MapViewer’s WMS service • Image Processing Operations with GeoRaster Themes • Client-Side Dynamic Style Creation

WFS (Web Feature Service) 1.1 - GML - • OGC & ISO 19142 Standard Published feature • Web interface that allows publication types & deployment of geographic features request response over internet •Two versions; Web Feature • Standard WFS Service F • Transactional WFS-T that Feature Schema T X F T supports get, update insert, query F T Y Z • Supported by Features and Lock Mapping metadata in database Data • WFS Processor and Cache in repository Data base T Application Server a b & internal l T data a e model b l A e B

Web Catalog Service 2.0 (WCS) OGC Standard Interface that enables applications to perform discovery, browse and query operations against catalog servers. Catalogue services support the ability to publish and search metadata for data and services. Catalogue Application Client CSW Request/Response OGC Service Interfaces Catalogue Service Search Resource/Service Metadata Repository describes Supported in same way : Record Metadata in Database; WCS processor and cache in mid-tier

Summary • Single spatial data platform for all data – raster & vector • Proven mapping platform with many references • Leverages standards based SOA platform • Improves Decision making • Better Customer service • Lowers Cost of Ownership • Lowers Risk • Scalability, performance, reliability, security Oracle would like to build partnership with ISDEFE

To find out more... http://otn.oracle.com/products/spatial Examples, white papers, downloads, discussion forum, sample data ....

Capsule Consortech #1 Entreposer des images matricielles dans Oracle Spatial - M. Denis Piché, Directeur des technologies Solutions Consortech Inc. Événement Oracle Spatial et les influenceurs du milieu géospatial

Pause café Événement Oracle Spatial et les influenceurs du milieu géospatial

Conférence Nouveautés et orientation des développements d’Autodesk et d’Oracle - Par M. Geoff Zeiss, Directeur des technologies Autodesk Événement Oracle Spatial et les influenceurs du milieu géospatial

THE NOBEL PEACE PRIZE FOR 2007 …Intergovernmental Panel on Climate Change (IPCC) and Albert Arnold (Al) Gore Jr. for their efforts to build up and disseminate greater knowledge about man-made climate change, and to lay the foundations for the measures that are needed to counteract such change. © 2007 Autodesk 73

Annual Construction Spend • Worldwide $ 2.3 trillion per year • China $ 88 billion (1Q 2007 ) • India $ 50 billion per year • Canada $68 billion (in 97$) per year • US $1.2 trillion per year © 2007 Autodesk 86

Historical Productivity in Construction Industrial Productivity (non-farm) Construction Productivity 200% 100% 0% 1964 1984 2004 Constant $ of contracts / work hours of hourly workers Source: US Dept. of Commerce, Bureau of Labor Statistics © 2007 Autodesk 91

• Average age of utility workers is close to 50 • By 2010, as many as 60 percent of today’s experienced utility workers will retire. Study by American Public Power Assn • 20 % decline in productivity forecasted Study by Booz Allen © 2007 Autodesk 92

Architects, Engineers, Planners, Designers, CAD & BIM Drafters EO Satelites, Photogrammetry, Radar, Laser Aerial overflights, Scanning, LIDAR Terrestial scanning CAD vectorization Data Paper, Data conversion, Scanning, CAD Digitization Field data capture, Surveyors, Theodolite, GPS GPS © 2007 Autodesk 94

Proliferation of Geospatial File Formats 191 182 162 154 136 137 123 112 94 99 93 63 67 57 46 29 33 17 9 8 9 2 3 4 1 0 2 3 0 9 4 06 8 05 06 07 7 ‐9 ‐9 ‐0 ‐0 ‐0 ‐0 ‐0 ‐0 ‐0 ‐0 l‐9 ‐9 ‐0 ‐9 100 n‐ n‐ n‐ n‐ ct pr pr pr ov ov ov ov ep ug ar ay ay Ju Ja Ju Ju Ju M O M M A A A N N N N A S © 2007 Autodesk 100 Q1-2006 Review 100

Ex. Spatially-enabled RDBMS • Oracle Spatial has led the way Technology-Object Relational Standards – OGC Simple Feature Spec • Virtually all RDBMSs support SFS • Oracle Spatial has gone beyond the SFS Linear referencing, topology, georasters, … Georeferencing Routing Most recently surfaces (TINs) © 2007 Autodesk 104

What is Web 2.0 ? Web 1.0 Web 2.0 DoubleClick --> Google AdSense Ofoto --> Flickr Akamai --> BitTorrent mp3.com --> Napster Britannica Online --> Wikipedia personal websites --> blogging Evite --> upcoming.org and EVDB Domain name speculation --> search engine optimization Page views --> cost per click Screen scraping --> web services Publishing --> Participation Content management systems --> wikis Directories (taxonomy) --> tagging (\"folksonomy\") Stickiness --> syndication Source: Tim O’Reilly “What is Web 2.0?” © 2007 Autodesk 105

Improve productivity by fixing problems in design instead of during construction 1 2 PD: Pre-design SD: Schematic design DD: Design development CD: Construction docs Effort/Effect PR: Procurement CA: Construction Admin OP: Operation 4 Ability to impact cost and 1 functional capabilities 2 Cost of design changes 3 3 Traditional design process 4 Preferred design process PD SD DD CD PR CA OP Time Graphic originated by Patrick MacLeamy, AIA / HOK © 2007 Autodesk 113

Enables 3D Urban Simulation Building structure & Mechanical, electrical, & GIS street and parcel Underground Realistic interior design plumbing detail information utility data visualization W ate r © 2007 Autodesk 119

Business benefits of urban simulation • Urban planning • Economic development • Citizen participation • 3D zoning • First responders • Emergency planning • “Right to light” • Noise abatement © 2007 Autodesk 120

Loosely Coupled Client Client Client Client Internet Web Services Web Services Web Services API API API Application Application Application A B C API API API Proprietary Proprietary Proprietary Datastore Datastore Datastore © 2007 Autodesk 122

Tightly Coupled ERP Engineering CRM JDBC Design (CAD) JDBC ODBC SQL SQL SQL ODBC JDBC Asset Outage SQL Spatially- SQL Management Management enabled RDBMS SQL SQL ODBC ODBC Records Workflow (GIS) Management © 2007 Autodesk 124

OGC Simple Feature Spec for SQL OGC SFS Points, lines, closed polygons,… OGC SFS Extensions (Adopted 2007) Cartographic text Future ? Feature Stylization Metadata Linear topology Polygon topology Linear referencing systems Long transactions © 2007 Autodesk 125

Benefit: Multi-vendor interoperability Vendor A Vendor B Vendor C Appication Application Application ODBC ODBC ODBC SQL with SQL with SQL with spatial, versioning spatial, versioning spatial, versioning extensions extensions extensions Shared Data RDBMS © 2007 Autodesk 126

Alternatives for Interoperability Client Client Client Client • Loosely coupled Internet Web access to existing(legacy) data Web Services API Web Services API Web Services API sources Application A API Application B API Application C API Doesn’t address redundant data problem Proprietary Datastore Proprietary Datastore Proprietary Datastore • Tightly coupled CRM ERP JDBC Engineering Design (CAD) Single point of truth JDBC ODBC SQL SQL SQL ODBC JDBC Asset Outage SQL Spatially- SQL Management Management High performance SQL enabled RDBMS SQL ODBC ODBC Spatially-enabled RDBMS Records (GIS) Workflow Management © 2007 Autodesk 127

What’s the problem ? Precision Data Precision Data Raw Data Files QA/Review QA/Review Capture (CAD) Capture (CAD) Prod Data Prod Data Field Survey Field Survey Publishing Publishing Markups © 2007 Autodesk 129

Best Practices • Single point of truth Eliminate redundant data • Break down islands of technology Integrate CAD, GIS, … Streamline information flow Reduce paper flow • Harness the collective intelligence Implement Web 2.0 to enable participation © 2007 Autodesk 130

Oracle and Autodesk Partnership • Objective: Make benefits of Oracle Spatial accessible to engineers. • Autodesk and Oracle have had a long term relationship based on Oracle Spatial. 1996 Autodesk began working with Oracle on geospatial technology -> Oracle Spatial. 1999 Autodesk began working with Oracle on long transactions -> Workspace Manager. October Autodesk GBU 131 © 2007 Autodesk 131 2007

Autodesk Oracle Awards • 2004 Oracle10g Early Adopter of the Year Award Highlighting our industry leading support for 10g • 2007 Oracle Spatial Excellence Award Highlighting our strong partnership • 2007 Oracle Spatial Excellence Award Las Vegas Valley Water District Solution built with Topobase and Oracle Spatial October Autodesk GBU 132 © 2007 Autodesk 132 2007

Autodesk/Oracle Joint Customers • SBC (US) • Telefonica Sao Paulo (Brazil) • United Utilities (UK) • Brasil Telecom • ENMAX Power (Canada) • Embratel (Brazil) • First Energy Corporation • Global Village Telecom (Brazil) (US) • Qwest (US) • CE-Electric (UK) • Southern Water (UK) • Escelsa (Brazil) • Sanepar (Brazil) • Furnas (Brazil) • Equitable Resources (US) • CELESC (Brazil) • Port Corporation of Australia • Enelven (Venezuela) • State of Victoria (Australia) • BAA (UK) • City of Ottawa (Canada) • Japan Ministry of • Karico (Korea) Construction (Japan) • Sarajevo Municipal • Czech Ministry of Constuction Institute Agriculture • Telekom Serbia Autodesk GBU © 2007 Autodesk 133

Telekom Serbia Single Point of Truth • Eliminates data redundancy CAD/GIS integration • Eliminates redundant data and processes • Eliminates backlogs Improved customer service • Provisioning a telephone line reduced from 40 days to 2 days. Autodesk © 2007 Autodesk 137 GBU

Solution Overview Infrastructure design and management solution Infrastructure design and management solutions that provide centralized, flexible, and secure access to spatial information for GIS, design and business teams. Built on Autodesk Map 3D, Autodesk MapGuide Enterprise Uses Vertical modules Enterprise with Oracle Spatial Water/wastewater Electric Open, flexible architecture Gas Business Rules Land Survey Next release uses Oracle11g

Solution Architecture Precision Data Web-based Capture Applications AutoCAD Map 3D MapGuide Autodesk Topobase OMS Other CIS Spatial Data Enterprise ERP Data Other Oracle Spatial

Las Vegas Challenge Results Valley Water 3-year backlog of work District Eliminated project backlog requests Complete projects 20% faster 25% of GIS staff time fixing data errors Reduced data correction 15% United States $460,000 annual data High system maintenance costs management savings Why Autodesk? “Autodesk Topobase Open, flexible complements our existing architecture enterprise systems, including ESRI Infrastructure design and ArcSDE and allows linkages with management in a Hansen asset management and single environment PeopleSoft with a single interface. Within a five-month period, we Central spatial were able to incorporate the information database software into our system—start to finish.” Jonathan Pickus, Manager, AM/FM/GIS Division

Customer Success Nevada Power Challenge: Why Autodesk: Designs produced manually or with Looking for people that know a less-powerful CAD system. AutoCAD and also utility Inefficient design processes with infrastructure errors and rework often required. To streamline data and operations management “We rely on Autodesk technology to make us more efficient, more Results: responsive to our customers. The More consistent designs no matter Autodesk … solution does that by who is at the controls helping us standardize our design, drafting, cost estimating, and More consistent cost estimate and engineering calculations.” bill of materials Dennis McCombs, Senior Consultant - Information Technologies, Nevada Power

• We are facing worldwide challenges Greening of infrastructure, shrinking work force, lagging productivity,… • The design industry is investing in solutions Smarter design, geospatial enabling, 3D visualization, web 2.0,… • Convergence is about breaking down traditional islands of technology Architecture, engineering, CAD, GIS, simulation, … Best practices for interoperability in the real world relies on shared data in a spatially- enabled RDBMS © 2007 Autodesk 143

Capsule Consortech #2 WMS WFS Intégration de données WMS/WFS dans AutoCAD® Map 3D 2008 - M. Denis Piché, Directeur des technologies Solutions Consortech Inc. Événement Oracle Spatial et les influenceurs du milieu géospatial

Dîner libre Événement Oracle Spatial et les influenceurs du milieu géospatial

Bienvenue Événement Oracle Spatial et les « influenceurs » du milieu géospatial Québec 18 février 2008 Montréal 19 février 2008

Conférence FME 2008 et un peu plus… - M. Don Murray, Président - Safe Software Événement Oracle Spatial et les influenceurs du milieu géospatial

v FME 2008 and beyond February 2008

Topics Safe Software’s role in the GIS industry FME product line FME, Autodesk, and Oracle Convergence Summary 150

Topics Safe Software’s role in the GIS industry FME product line FME, Autodesk and Oracle Convergence Summary 151

The Spatial Data Challenge Proliferation of spatial data formats Hundreds of formats, with more added each year Data stored in multiple systems and applications CAD Vector Databases Raster BIM/3D Web Services Traditional approaches to data translation and data model restructuring are complex, inefficient and time-consuming Increasing pressure for access to spatial data by multiple user communities 152

Safe Software’s Role in the GIS Industry The Spatial ETL experts Spatial ETL Extract, transform and load location-based data Our focus is on powering the flow of spatial data throughout the GIS process, while resolving data model differences 153

Example Spatial ETL Tasks Exchanging data between CAD & GIS Data Model Transformations Web Application support Give access to new types of data Provide flexible data distribution facility Migrating data from legacy systems Performing QA tests on spatial data 154

Data Convergence Translate from one format to another Transform into the data model you need Integrate different data types at once Deliver data to users in the structure & format they desire Safe Overview 155

Translate Number of Supported Formats in FME 207 220 182 162 154 136 137 123 Perhaps we need 94 93 99 112 a 67 Format Non- 57 63Proliferation 46 29 33 Treaty! 17 9 156

Translate Safe focuses on both format and data model transformation! 220 V Format is necessaryV 220 V ~ 110 AC Transformer but not sufficient for interoperability! 220 V AC

Transform Data restructuring - both in terms of attribution and geometry - is key!

Integrate Integrate data from multiple sources into a single data model 159

Deliver Deliver data to users in the structure and format they desire – and via the web technology they prefer

FME Desktop Flexible & powerful spatial ETL toolset Translate, transform and integrate data in over 200 formats Graphical authoring environment FME Workspace Step 1 Extract: Drag source dataset on to the workspace Step 2 Transform: Adjust the way the data flows from its source to the destination Step 3 Load: Load your data into the destination Translation Dialog Box 162

FME Server Scalable spatial ETL processing and distribution environment Distribute spatial data via the web Enable on-the-fly data transformation 163

FME, Autodesk, and Oracle FME makes it easy to move up and down the value chain

AutoCAD Map 3D Object Data Support Read and write AutoCAD Map 3D object data Get access to the complete object data model Demonstrations Demo 1– Simple Object Translation Demo Demo 2 – Transforming and cleaning data into object data Demo 3 – Writing object data to enable SDI initiative 166

FME FDO Provider for AutoCAD Map 3D Demonstration Directly read both vector and raster data from: GeoTIFF MapInfo Custom Format 167

BIM/3D Support in FME 2008 Integrate data from multiple sources - including 3D/BIM - into a single data model Demonstrations Demo 1 – Loading 3D IFC data into Oracle Spatial 11g Demo 2 – integrating vector and raster data to create a 3D dataset 168

FME Server Demo #1 – Publishing and executing a workspace. Demo #2 – Spatial Direct. 169

Data Convergence FME enables all types of data to flow freely within organizations. Safe Overview 171

Data Convergence FME and Informatica PowerCenter 172

Data Convergence FME and IBM WebSphere DataStage 173

Topics Safe Software’s role in the GIS industry FME product line FME and Autodesk Convergence Summary 174

Summary Safe Software is actively investing in supporting Autodesk and Oracle Solutions FME 2008 brings 3D/BIM to the Spatial ETL solution space FME 2008 Server promises to bring the power of the ETL platform to the enterprise. 175

Thanks For more info visit www.safe.com 176

Capsule Consortech #3 Entreposer des images matricielles dans Oracle Spatial via FME - M. Denis Piché, Directeur des technologies Solutions Consortech Inc. Événement Oracle Spatial et les influenceurs du milieu géospatial

Pause café Événement Oracle Spatial et les influenceurs du milieu géospatial

Conférence Les défis et l'intérêt de passer du 2D au 3D en cartographie et en modélisation - M. Xavier Lopez, Directeur, Gestion de produits Oracle Événement Oracle Spatial et les influenceurs du milieu géospatial

<Insert Picture Here> From 2D to 3D mapping and modeling: Challenges and Opportunities Xavier Lopez, Director, Product Management

3D Data Management • Business and Technology Drivers <Insert Picture Here> • Use Cases for 3D Data Management • Overview of Oracle Spatial Database • Oracle 11g 3D Features

Trends • Files to Databases • Integrated data management for ALL geospatial data types • SOA…Applications hosted as Service (Google Earth) • Massive new hardware and network capabilities • Automated Data Capture / Model Creation (sensors) • Pressure on AEC facility performance • better, cheaper, faster, and sustainable • 3D and Indoor Location Based Services (LBS) • Mass Market: Consumer-focused systems

Technology Push: Sensor Driven 3D Data, Imagery, Models • New point cloud sensor generating massive datasets • LIDAR (Airborne) • Laser Scanning (Terrestrial) • Point clouds provide quality 3D models that are more cost effective and richer than traditional 2D mapping approaches • COTs 3D data products entering the marketplace • NAVTEQ, Tele Atlas • Use of 3D models are becoming mainstream • Google Earth, MS Virtual Earth • Standards Emerging: • LAS: Point cloud format • CityGML: 3D city scenes

<Insert Picture Here> 3D Geospatial Opportunities

GIS Analytical Modeling & Simulation Flood Plain Analysis Petroleum Exploration

CAD Infrastructure Design (Super Models) Courtesy Parsons Brinckerhoff Courtesy Parsons Brinckerhoff

Web 3D Browsing

Google Earth 3D Mash-ups

Personal Navigation Devices

Simulation, Gaming, and VR

<Insert Picture Here> Managing GIS & CAD Data Model Integration

Challenges? • Incompatibilities between … • Geospatial • AEC/CAD • Outdoor • Indoor • Georeferenced • Local Coordinate System • 2D and 2.5D • 3D and 2D • Smaller scale • Larger scale • Rich standards for Web • No standards for Web Services Services • Rich Visualization • Rich Analytics • File Driven • Database drive

World Towards an Aggregated World View Country Region State / Province Natural Asset County Air / Space City Underground Site Water / Sea Real Property Asset Land / Parcel Facility / Built Building System Sub-Systems Space Components Level Overlay Room Structure System Sub-Systems Space Components Level Overlay Room Linear Structure Node Segment

Requirements for 3D City Scenes • Design (CAD) • Model Creation • Automated Scene Generation • Data Management (Geospatial) • 3D types storage, indexing, query • Scalability, security, versioning • Visualization (CAD) • Rich 3D Visualization • Communication & Collaboration • Spatial Query & Analysis (Geospatial) • 2D & 3D Spatial queries • Measurement, Navigation & Simulation

An emerging Standard: CityGML Dr. Thomas H. Kolbe, U Berlin Dr. Gerhard Gröger, U Bonn www.citygml.org

Spatio-semantical Composition BuildingInstallation 3D-Modell: Stadt Coburg (Dormer) BuildingPart Building BuildingPart Building surface Building (WallSurface)

Coherent Model in Level of Detail 3 3D-Modell: Dr. Benner, Forschungszentrum Karlsruhe

What do Spatial Databases Bring to 3D? • Support for large seamless 3D scenes: Terabytes of objects • Fusion of aerial imagery, close-range airborne and ground video/LIDAR with traditional 2D vector models • Spatial analysis: conduct traditional GIS queries on 3D scenes • Transactional Updates • Enterprise Integration: Integrate 3D models with business information. • Versioning and Long Transaction Support: • Data security, access control, encryption, authentication • Open: Support by third party 3D viz and analysis tools

3D Functionality in Oracle Spatial 11g Types Building Models,.. Efficient 3D COORDINATE SYSTEMS • SDO_GEOMETRY (3D) Storage Surface • SDO_TIN Modeling Query • SDO_POINT_CLOUD Analysis Scene, Object Modeling

3D Types in SDO_GEOMETRY… • Solid: Single Contiguous Volume, Represented by Bounding Surfaces Cube Simple Solid • 1 outer surface and 0 or more interior f eSolid surfaces c d with hole • Examples g h • Cube is a simple solid a b • Solid with a hole Composite solids: • 2 or more connected simple solids • Equivalent to Simple Solid but a convenient representation in some applications

3-D Types in SDO_GEOMETRY… • Support for multi-points, multi-lines, multi-surfaces, multi-solids • Multi-solid is different from composite solid • Densification/Surface patches for arcs, parametric surfaces • Follows GML3, ISO 19107 Specifications Store 3-D Types as SDO_GEOMETRY Columns Index and Query using Oracle Spatial R-trees

TINs: Triangulated Irregular Networks • Vector-based topological data model represents terrain/surface • Contain a network of irregularly spaced triangles • 3D surface derived from irregularly spaced points • Each sample point has an x, y, z or surface value Node No X Y Z 1 5 6 3 2 3 6 5 3 1 5 6 4 4 4 4 5 6 5 3 6 2 2 2 . . . .

Query, Analysis on 3D SDO_GEOMETRY • Given a 3D Geometry as Query, Identify data geometries that • Intersect the Query (SDO_ANYINTERACT) • Within specified distance from Query (SDO_WITHIN_DISTANCE) • Nearest to Query (SDO_NN) • Analysis Functions • Relationship: Geometry-Geometry Intersection • Length, Area, Volume Analysis • Validation of 3D Geometry: Is Solid ‘closed’ ? • Extrusion of 2-D Footprint to a 3-D Solid by specifying heights • Association of Textures with LabelStrings of Geometry Elements • Extraction of Elements using LabelString of Geometry • Conversion Functions to/from GML, to KML/Collada, from CityGML

3D Coordinate System Functions Same use as 2D Coordinate Systems: A reference system for spatial operations • Associate a coordinate system with 3D data • SDO_GEOMETRY • Support transformations from one to another coordinate system • Compute distances, and other spatial relationships between two objects within the same coordinate system

3D Coordinate Systems Oracle Spatial 11g supports the following EPSG types • Vertical Coordinate Systems: Essentially 1-d coordinate system (w.r.t sea-level etc.) • Geocentric: 3-d Cartesian • Geographic-2d, Projected-2d: 2-d Ellipsoidal • Geographic-3d: 3-d Ellipsoidal • Compound Coordinate System Combines • A Vertical Coordinate System with • Either A Geographic-2D or A Projected-2D Coordinate System Oracle Spatial 11g supports transformations between different 3D Coordinate Systems

3D Data Production Workflows Dissemination Data Collection Production & Exploitation Model/Scene Generation 3D Mapping LIDAR Surveys Image Texture Wrapping Fly Through Photogrammetry Versioning 3D analysis Aerial Photos Editing/Updates Engineering Design Satellite Imagery Quality Control Predictive Analysis COTS Scenes Navigation Systems

Summary: • Support for large seamless 3D scenes: Terabytes of objects • Fusion of aerial imagery, close-range airborne and ground video/LIDAR with traditional 2D vector models • Integrated support for Service Oriented Architecture (SOA) • Spatial analysis: conduct spatial queries on 3D scenes (e.g. Nearest neighbor, within distance) • Transactional Updates: Add, delete and update updates to 3D objects – both of the structures and attributes through distributed Web • Enterprise Integration: Integrate 3D models with business information. • Versioning and Long Transaction Support: Manage 3D projects in version • Data security, access control, encryption, authentication • Open: Support by third party 3D viz and analysis tools

Témoignage Oracle Spatial : Une pièce maîtresse au Ministère des Ressources naturelles et de la Faune - M. Carl Pelletier, Architecte technologique géomatique MRNF Événement Oracle Spatial et les influenceurs du milieu géospatial

Oracle Spatial une pièce maîtresse au MRNF Carl Pelletier Direction générale des technologies de l’information Ministère des ressources Naturelles du Québec

Plan de présentation Présentation du Ministère et de ses secteurs d’activités; Oracle un joueur important au MRNF; La géomatique au MRNF; Le choix d’Oracle spatial; Les prochains défis à relever pour le Ministère. 21 0

L’Organigramme du MRNF 21 1

Contexte du MRNF Chacun des secteurs possède de l’expertise technique adaptée à sa mission d’affaire; La répartition de l’expertise, et l’historique des secteurs, font en sorte que certains développements ont été fait en marge des méthodologies; Copies d’une même donnée à plusieurs endroits; 21 2

Impacts du développement en silo Développement de systèmes sans vision d’ensemble causant: La présence de plusieurs familles d’outils, donc plusieurs formats de données; Redondance de la données; Problème pour trouver les données les plus à jours; Les échanges inter/systèmes s’effectue via des procédure d’export/import; 21 3

Recherche d’un dénominateur commun Quel point les systèmes ont-ils en communs? 21 4

Oracle au Ministère 120 systèmes totalisant 1TB de données; Une dizaine de ces systèmes utilisent de façon massive le volet spatial; Près de 350 GB de données vectorielles spatiales dans Oracle en format natif SDO; 21 5

La géomatique au MRNF Géomatique Ministérielle implique la DGTI dans les volets suivants: Production (numérisation, saisie, validation…) Stockage (Architecture de données, modélisation et stockage); Exploitation (Analyse, thématique, produits dérivés); Diffusion Web; 21 6

Diffusion -ArcIMS -Geomedia WebMap -Push’n see Web services Exploitation Production -ArcGIS -ArcGIS, ArcInfo -Geomedia -Geomedia -MapInfo -MicroStation -MicroStation PGDB Smart DGN SHP Mapinfo COV Store 21 7

Oracle Spatial un choix logique Réutilisation de l’expertise déjà acquise au Ministère (DBA); Les fournisseurs d’outils géomatique sont en mesure de lire/écrire le format spatial Oracle (partage des données); Permet le stockage en mode continue; Permet l’exploitation de données géographiques via pure SQL et PL/SQL par des systèmes non-géomatiques; 21 8

Oracle Spatial un choix logique (…) Amélioration constante des performances constatée depuis la version 8i; Ajout de fonctionnalités (opérateurs spatiaux); Performance accrue sur de large volume de données (réplication, partitionnement, parallélisme); Intégration du volet topologique dans la version 10g; 21 9

Oracle Spatial un choix logique (…) Permet une indépendance face aux différents fournisseurs; On attend toujours le stockage des géométries de type texte… 22 0

Historique Oracle Spatial utilisé depuis 1999 (8i); FME un outil devenu quasi indispensable pour la conversion massive de données; FME sera utilisé d’avantage pour de la validation de données; 22 1

Les défis à venir Rendre disponible la donnée spatiale à nos gens en région de façon efficace; Mise en disponibilité de la données spatiales via des services OGC; Utiliser le volet Web dans une perspective de GIS sur client léger; 22 2

Questions 22 3

Merci! Événement Oracle Spatial et les « influenceurs » du milieu géospatial Québec 18 février 2008 Montréal 19 février 2008

Tirage Garmin nüvi® 250 À qui la chance? Événement Oracle Spatial et les influenceurs du milieu géospatial

Événement Oracle Spatial 2008 et les influenceurs du milieu géospatial - English Presentation

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