Empirical Comparison of Shallow Water Bathymetry Data

Empirical Comparison of

Shallow Water Bathymetry DataUAS MultiView Stereo Photogrammetry

versus Single Beam Echo Sounding

GERNOT PAULUS1 , KARL-HEINRICH ANDERS1,

MELANIE ERLACHER1, PETER MAYR2 & RUDI

SCHNEEBERGER3

1 FH Kärnten, Geoinformation and Environmental Technologies, Villach; 2 flussbau iC GesmbH, Villach; 3 ViewCopter e.U., Feldkirchen

UAS Training San Diego

March 2011

UAS R&D @ GeoinformationUAS Platforms

Sony Alpha 6000 27 MP (RGB/NIR)

MicaSense Red Edge

RIKOLA Hyperspektralkamera

“Wetterfrosch”

Meteorologischer Sensor

FLIR Duo R Thermalkamera

UAS R&D @ GeoinformationSensors

UAS R&D @ GeoinformationGround Truth

www.dronezoneaustria.at

UAS R&D @ GeoinformationUAS Mission Planning Support

UAS R&D @ Geoinformation

UAS F&E Project volume 2014 - 2018 “+ 1Mill. €”

RPAmSS – New environmental robotic services with a Remotely Piloted Aerial multi Sensor System - COIN

Drone Zone Austria - Design of a Web Portal for Safe Drone Mission Planning in Austria - TakeOFF

Drone based Wetland Monitoring „BleistätterMoor“2017 – 2021 – Research Cooperation Regional GovernmentCarinthia, Dept. 8 Environment, Water & Nature Protection

FISHSTREAM – Site Evaluation Fish Ladders– Key Indicators & UAS-based Analysis Tools Analysetools –Verbund, flussbau iC, ViewCopter, BOKU

WÖRTHERSEE 3D - „UAS-based photogrametricAnalysis of Lake Shores – Example Lake Wörthersee“ -Research Cooperation Regional Government Carinthia, Dept. 8 Environment, Water & Nature Protection

Motivation

Problem Definition

Methods

First Results

Next steps

MOTIVATION

EU Waterframework Directive

2000/60/EG (WRRL) requires an assessment ofchemical and ecological condition of surfacewater bodies:• Biological, chemical and hydromorphological quality

components

2017 Echo Sounding Campaign Wörthersee

Last survey1976 - 49 profiles, map with 10m isolines (1:25.000)

New survey with Multi Beam (Deep water) & Single Beam Echo sounding (Shallow water)

Problem Definition

Comprehensive capture of entire lake shore area

approx. 150 m wide shore strip, Water-Land Transition Area, 46 km shore line, 5.5 km²

Low vegetation activity– Spring 2018

Methods - Overview

Organisation & Planning

Mission Planning & Control Points

UAS – Missions

Multirotor UAS (ViewCopter)

Ground Truth

DGNSS – Control Points (flussbau iC)

Single Beam Echo Sounding (Dr. Döller Vermessung ZT GMBH)

Water gauge Pörtschach: Water level

Photogrammetric Analysis

DSM, Orthophotomosaic

Data fusion – Shallow water bathymetry

Resampling, Integration, map sheets

Mission Planning

UAS Missions

Viewcopter V6H (adapted Hexacopter based on DJI Matrice600 Pro)

Class 1 - Category C flight permission

Approx. 25 minutes Flight time

Camera

SONY ILCE-A7RM2 Full format camera, 43 MP, 28mm lens

Period

27.March – 18. April 2018

11 Mission days

Photogrammetric Analysis

Iterative Processing – Quality Control

Phase I: Quick evaluation contemporary to UAS missions• Check overlap & image quality

Phase II: Evaluation with high point density & manual control point allocation

Hierarchic Bottom-Up Strategy

54 Flight segments

Aggregation to 9 mission areas

Software

AGISOFT Photoscan Version 1.4.1.

Hardware

XEON Server with 24 Kernels, 4 GPU NVIDIA 20N Graphic cards & 128 GB RAM

PhotogrammetricProcessing

Data volume & Run times

PhotogrammetricProcessing

Data volume & Run times

Results

KAGIS WMTS WebServiceBlattschnitt: 1250m x1000m

https://gis.ktn.gv.at/webgisviewer/atlas-mobile/map/KAGIS-Themen/w%C3%B6rthersee

KAGIS WMTS WebServiceBlattschnitt: 1250m x1000m

https://gis.ktn.gv.at/webgisviewer/atlas-mobile/map/KAGIS-Themen/w%C3%B6rthersee

UAS Shallow Water BathymetryEmpirical evaluation UAS versus Single Beam Echo Sounding –First Results

Absolute Height Comparison

„Raw data“ no refraction correction

n = 1504

UAS Shallow Water BathymetryEmpirical evaluation UAS versus Single Beam Echo Sounding –First Results

(Paulus et al. 2019)

Next Steps

Statistical assessment total shallow water area

Current: approx. 5.5 km shallow water – 1504 Single Beam reference points

Final: approx. 50 km - 8295 Single Beam reference points

Local versus global models

Consideration of accuracy/uncertaintySingle Beam Echo sounding

Lake bottom types?

Environmental influence?

Calm water versus wind & waves?

Prof. Dr. Gernot Paulus &

Engineering & IT

Geoinformation and Environmental Technologies

Carinthia University of Applied Sciences

Europastrasse 4, A-9524 Villach, Austria

Tel: +43-4242-90500-2240

e-mail:

g.paulus@fh-kaernten.at

Contact Information

Empirical Comparison of Shallow Water Bathymetry Data

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Transcript of Empirical Comparison of Shallow Water Bathymetry Data

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