Background A Baltic Sea Bathymetry Database Concept and Hans Öiås Swedish Maritime Administration Hydrographic Office A national directive: The Swedish Maritime Administration shall, in cooperation with other authorities concerned and within the framework of the International Hydrographic Organization (IHO), promote increased standardisation of various types of sea data and develop an action plan on how to create a general harmonised bathymetry model for the Baltic Sea. Succesfully included, with emphasis towards navigation, in a TEN-T Motorways of the Sea project. 2 IHO, International Hydrographic Organization Bathymetry and Inspire Global organization, 80+ member states Promotes primarily standards and products for the safety of navigation Regional Hydrographic Commissions for regional cooperation The Baltic Sea Hydrographic Commission has 8+1 member states Bathymetry = Depth, distance surface to bottom. Included in Inspire annex II Elevation Maritime Administrations, Hydrographic Offices are also typically involved in : Annex 1 Administrative areas Annex 1 Transport Networks 3 4 1
EU TEN-T Project Runs 2011-2013 Four (4) work packages Dynamic and Proactive route planning Electronic verification of officers certificates Ensuring Quality of Hydrographic Data on Shipping Routes and Areas Global Sharing of Maritime Information http:\\www.monalisaproject.eu http:\\www.helcom.fi Hydrographic Surveys in the project Baltic Sea harmonised bathymetric model Specification of common harmonized datasets including a common application schema (information model) for bathymetry Develop proposals concerning storage, maintenance, exchange and distribution of bathymetric data. A concept of a virtual database and distribution by metadata, view and download services in line with the Inspire directive should be studied 5 6 Demands in society for bathymetric data Quality and resolutions demanded Applicationarea Resolutionin bathymetry data Positional quality Based on a questionnaire survey What application areas exists? Archaeology Veryhigh (0,1 meter) Moderate (1 meter) Nautical charting and navigation High (1 meter) High (0,3-1,0 m) Engineering High (1-5 meter) High (0,3 m) What are the demands for these areas? Habitat, fishery, water resources, geology Moderate (2-50 meter) Moderate Circulation modelling Low( > 100 meter) Low http://www.iho.int/mtg_docs/rhc/bshc/bshc16/bshc16_en_c6_se.pdf Note: Generally the demands on resolution and quality decreases with distance from shore 7 8 2
Sensors for bathymetry Examples, multibeam sonar Multibeam echo sounder Laser bathymetry 9 10 11 12 3
Other datatypes - Bottom classification Result of analysis of multibeam sonar data amplitude and backscatter Hard rock Traces of sand 13 14 Content Technology Very heterogenous bathymetry data from several points per m 2 to 6000 meters apart A goal to develop a harmonised grid data set for the Baltic Sea transnational, resolution X meter Development of a project site with examples of geodata portal services View services (WMS) Downloadable datasets Download services (WFS, WCS) Testing and developing methods to produce the grid Propose procedures to gradually improve and maintain the data set 15 16 4
Obstacles for harmonisation Early conclusions National legislation varies regarding availability especially defense reasons (Secrecy Acts) The demand for bathymetry data is evident and varies a lot with regard to resolution and quality National business models varies, cost or no cost for bathymetry data Possible solution Find a common denominator for a harmonised data set where terms and licensing are agreed. Nations provide high resolution bathymetry data through national channels (portals, Inspire) Availability is considered problematic INSPIRE helps as a driving force A future organisation for a sustainable initiative will be proposed Foundation for a Baltic Sea SDI.?? 17 18 5