Dale Nicholson Canadian Hydrographic Service

Havana, February 2007 Marine Spatial Data Infrastructurein Canada Dale Nicholson Canadian Hydrographic Service

Marine Spatial Data Infrastructure in Canada • National Overview • SDI and the Canadian Hydrographic Service • The organization • Non navigation clients • Data management • Hydrographic information network • Water level information infrastructure • Role of Hydrographic Organizations in SDI

National Overview • Existing Organizations • Canadian Council On Geomatics • Multi governmental organization (federal, provincials, territories) • Inter-Agency Committee on Geomatics • Multi departmental organization of the federal government • Canadian Geomatics Accord (2001) • Aim to facilitate geospatial information sharing • Canadian Geospatial Data Infrastructure (1996) • To make Canada’s geospatial data bases available via the Internet • GeoConnections Program : financial incentives

Canadian GeospatialData Infrastructure (CGDI) • A Framework for Data • Basic Principles • Collect data once and use many times • Distributed management of the data • Centralized access by communities of practice, i.e. Observatory or Observing Systems concept • Sets the principles, standards and data policies for interoperability of systems

Canadian GeospatialData Infrastructure (CGDI) A Three Tier Model • Data • Distributed geospatial information, such as metadata, feature data or map layers • Services • Web services compliant with CGDI-endorsed standards that enable access to data or data processing • Applications • Applications addressing a specific problem or issue

Marine CGDI • Marine Geospatial Data Infrastructure • Sub component of CGDI • Web Access to Marine Information • DFO GeoPortal (http://gp2.chs-shc.dfo-mpo.gc.ca/) • St. Lawrence Observatory (http://www.osl.gc.ca/) • COIN Pacific (http://aardvark.gov.bc.ca/apps/coin/) • MarInfo (http://www.marinfo.gc.ca) • Others

Canadian Hydrographic Service (CHS) • CHS Mandate • Maritime navigation safety and efficiency • Tides, Currents and Water Levels • Seabed mapping for sustainable development • National sovereignty, security and emergency preparedness

CHS Statement of Direction The Canadian Hydrographic Service is enhancing its role as an organization recognized as the official provider of national hydrographic information. To realize this goal, the CHS is realigning its activities towards data accessibility and the integration of marine information in support of the safe and efficient use of our waterways, the sustainable development of Canada’s oceans and inland waters, and national sovereignty and security. • Source: "Canadian Hydrographic Service, Statement of Direction", October 2006

Non Navigation Clients CHS Business Model Navigators Data Dissemination Data Acquisition Data Integration Data Transformation Technical support, development, research Management and Administrative support

Non Navigation Clients • Source data requests : • The sample : one CHS region over 2 years • Growth of requests : 50% from 2004 to 2005 • 88% for bathymetry, 12% for shoreline, limits, infrastructure • Usage: • 38% engineering projects and studies • 27% scientific projects • 23% navigational aids planning • 12% others (court case, displays, planning, etc.)

Data Management in CHS • Dissociation of Source Data and Product Data • Source Data Management Principles: • Systematic data integration for all new sources • Identify the best data (most recent, most accurate) • No cartographic transformation • Conservation of all data traceability • No data creation and no movement of data between sources

Hydrographic Information Network (HIN) • Metadata Management System • Centralized national DB for source information and products • Source Data Management Systems • Databases decentralized in the geographic regions • Product Management System • Databases decentralized in the geographic regions

HIN Simplified Architecture

HIN - Work in Progress • Implementation of CARIS Hydrographic Production Database (HPD) for Source and Product Data Management • Implementation of the Bathymetric Data Base • Develop and Provide a New Product for Non-Navigational Purposes • Experiment with the use of “Navigation Surfaces" in Chart Production and Bathymetric Data Management

Water Level Infrastructure • Network of 80 permanent tide gauges all accessible remotely (90% by public) • St. Lawrence tide gauges linked to a network infrastructure providing real time water levels and forecasting • Used for maritime traffic management, optimization of security and transits • Tsunami warning systems in Pacific and Atlantic

Sineco – Work In Progress • Part of the Integrated Marine Information Infrastructure (St. Lawrence Observatory) • Base chart data, real-time water levels, currents, winds, ice, other vessel movements (Automated Identification System), dense bathymetry all integrated for e-Navigation • Interoperability based on the ISO 19000 standards • Service Oriented Architecture (SOA) based on open standards

Role of Hydrographic Offices in SDI • The official source for, but not limited to: • Bathymetric data • Seabed information • Water level information • This should be well communicated and officially recognized • Advanced by being very active in international standards development and activities

Dale Nicholson Canadian Hydrographic Service

Dale Nicholson Canadian Hydrographic Service

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Photo: Janet Kitz Collection Reproduced with the permission of the Canadian Hydrographic Service.

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