1. Lidar Bathymetry – Technology and applications Oct 24rd, Netanya, Israel Anders Ekelund Managing Director Airborne Hydrography AB

2. World recognized supplier of Airborne LIDAR systems Products HawkEye II for bathymetry Chiroptera for shallow water DragonEye for land Privately owned Airborne Hydrograpy was formed in a buyout from SAAB AB, and has accumulated more than 25 years of bathymetric LiDAR product development for SAAB and the Swedish Navy

3. Products 3 HawkEye II –An airborne coastal survey system including deep water bathymetry and topographic LIDAR Chiroptera –A shallow water coastal survey system including high density bathymetric LIDAR and high end topographic LIDAR DragonEye –A high end pure topographic LIDAR system

4. LIDAR Bathymetry - What’s the Attraction? The advantages of LIDAR bathymetry - Delivers data from both land and sea/floor - Delivers data from both land and sea/floor - Fast progress (typical 10-50 Square km / hour) - Fast progress (typical 10-50 Square km / hour) - No hazard for survey ships - No hazard for survey ships - Delivers the accuracy the authorities need - Delivers the accuracy the authorities need LiDAR Bathymetry is very cost efficient tool for large scale digital elevation modelling projects in the coastal zone Area coverage 10-50 km 2 per hour

6. System design

7. Batmetric LIDAR Typical end products –X,Y, Z point clouds (bathymetric and topographic) –Digital Elevation Models –Bathymetric charts, X,Y depths created from HawkEye data and tidal model –Shoreline definition –Image orthomosaics –Sea-bed reflectance product –Additional environmental products

8. Visingsö - Multibeam

9. Visingsö – Topographic HawkEye II data

10. Visingsö – Bathymetric HawkEye II data

12. Visingsö - Shoreline

13. Visingsö – Contour lines

14. Sea bed reflectance

15. Sample data – Combined bathy – topo / Motala river mouth

16. Sample data Topo example – Industrial area

17. Sample data – RGB colored point cloud

19. Sample data – River Topo / Bathy crossection

20. Sea-mine detection Dummy sea-mine –70 cm diameter water filled boat fender, –painted in NATO green according to Ministry of Defence standard 00-23, Issue 3, may 30m 2001. Anchored on about 2,5 meters depth, at about 5,5 meters water depth.

21. Sea-mine detection The sea-mine is clearly visible in between the sea-surface and sea- bed

22. Natural target at sea-floor Blue - Multibeam data Green - LIDAR data 0.8 meter high bolder found in both multibeam and LIDAR dataset

23. Man made target Blue - Multibeam data, Green - LIDAR data A one meter high cube placed on the sea-floor after the multibeam survey, discovered by the LIDAR

24. Sample data – Boats in the harbour

25. Sample data - 2 meters dreging for new small boat harbour

26. Sample data 28 meter high object on the surface, 4,4 meters depth below What’s that?

27. A Fountain!

28. Summary Modern bathymetric LIDAR Simultanious capture of topo and bathy –Full waveform in both topo and bathy Reasonable depth penetration –> 20 meter in clear waters k=0,1 –> 10 meters in less clear water k=0,2 Capture of small targets –IHO special order objects detected to about 2/3 of the depth penetration Excellent accuray –Bathymetry close to IHO special order (25 cm, 2 sigma, absolute)

29. Summary Modern bathymetric LIDAR High data density –Typical Topo > 10 points per square meter Bathy > 1 point per square meter Easy installation –Sensor weight: 80 Kg –Power consumption: 15 Amp on the 28 VDC supply –One single turn key unit –Simple touch sceen operators interface

30. Summary Modern bathymetric LIDAR Can be used for a large number of appliacations –Coastal monitoring –Sea-Charting –Environmental monitoring –Oil and Gas Pipelines –Ports, harbours –River survey –Object (sea-mine detection) –Sea-bed classification –Military applications