Post on 21-Aug-2020
INVESTIGATING THE PRECISION OF AN UNMANNED AERIAL PHOTOGRAMMETRIC BEACH SURVEY WITHOUT
GROUND CONTROL POINTS
Paul Aldersley BSc (Hons) Ocean Exploration
Plymouth University
School of Marine Science and Engineering
OBJECTIVES
• Setting the scene
•Methodology
•Results
•Conclusions
• Future Research
Setting the scene:
• Quicker than Terrestrial Survey • Cheaper than a Manned Aerial Survey • Little research into UAV over a beach • None without GCP
Why an unmanned aerial vehicle (UAV) survey and why research it?
Setting the Scene: Photogrammetry without Ground control Points
“The science of measuring in photos” (Linder 2006)
Ground Control points Structure From Motion No Ground Control Points
Setting the Scene: The UAV • The Topcon Sirius Pro UAV
No Ground Control Points
Undertake an aerial digital photogrammetric survey of a suitable beach
Complete a comparative terrestrial survey of the same area using a quad bike and
RTK GPS
Produce digital elevation models (DEMs) using the data obtained from each survey
method & compare the results and draw conclusions.
Setting the scene: Aim & Objectives To test the precision of an unmanned aerial photogrammetric beach survey without the use of ground control points.
Methodology: Survey Location
Methodology: Surveys
Both surveys OSGB36 Ref. Frame tied in with local OS Rinex Stations
Aerial Two Flights. Base station static GPS RTK Link Base station to aircraft
Terrestrial Established Base station Point Linked to Rover GPS on Quad Bike
Methodology: Post processing - workflow
CSV XYZ data DEM produced in ArcGIS
Orthophotos & DEMs produced in Agisoft Photoscan
DEMs imported into ArcGIS
Results Aerial Terrestrial
Orthomosaic “rubber sheeted” over DEM using Virtual Surveyor Software
Results: Comparing data
• Comparing elevation values only • Root mean Square Error of 0.11m • Existing work – with GCP 0.05m –
but not flat beach • Lidar 0.29m
Difference (m)
Results: Profiles
-3.5000
-2.5000
-1.5000
-0.5000
0.5000
1.5000
2.5000
0.00 50.00 100.00 150.00 200.00 250.00 300.00
Ele
vati
on
re
lati
ve t
o m
ean
se
a le
vel.
(m)
Distance Across Beach (m)
GCP 10-18 Profile
Terrestrial_DEM
UAV_DEM
GCP
-3.00
-2.50
-2.00
-1.50
-1.00
-0.50
0.00
0.50
1.00
1.50
2.00
2.50
0.00 50.00 100.00 150.00 200.00 250.00 300.00 350.00
Ele
vati
on
re
lati
ve t
o M
ean
se
a le
vel(
m)
Distance Across Beach (m)
GCP 14 - 15 Profile
Terrestrial_DEMUAV_DEM
GCP
14
15
Results: A closer look
Results: Profile across a pool
-3.5000
-3.0000
-2.5000
-2.0000
-1.5000
-1.0000
-0.5000
0.0000
0.5000
0.0000 50.0000 100.0000 150.0000 200.0000 250.0000
Ele
vati
on
re
lati
ve t
o m
ean
se
a le
vel (
m)
Distance Across beach (m)
New profile
Terrestrial DEM
Aerial_DEM
RESULTS: WATER?
Conclusions/Learning
• Two separate surveys • Repeated Surveys • Know the equipment
Future Study
•Work on the impact of water and mitigation •Direct comparison of accuracy
Acknowledgements: I am grateful for the support of the following people in assisting me to get to this current stage of my honours project. • Mr Martin Read - Project Advisor . • Dr Vic Abbott – Tutor and Technical Project Advisor. • Dr Tim Scott – Co-ordinator of the Coastal Observation team for his
advice and support on the day of data collection and since.
• The Coastal Observation Project team for running the terrestrial survey on the day and sharing their data.
• Topcon Positioning GB & Ireland for the use of their Sirius Pro Unmanned Aerial System.
• Mat Kellett from Topcon for providing the survey expertise on the day and
for his advice pre and post the survey flights. • George Ollis-Brown and Dom Williamson for their help on the survey day.
References Geoconnexions.com. 2016 Http:/www.geoconnexions,com [Accessed 7th March 2016] Linder, W. 2nd edition.2006. Digital Photogrammetry, A Practical Course. Berlin: Springer. Puget Sound River History Project. 2016. Available at http://riverhistory.ess.washington.edu/photo.php [Accessed 1st March 2016] RICS. 2010. Vertical aerial photography and digital imagery practice standards. 5th Edition. Available at : https://communities.rics.org/gf2.ti/f/200194/4265829.2/PDF/-/RICS_Vertical_aerial_photography_and_digital_imagery_2010_5th_ed_final_online_version.pdf Topcon: Topcon Sirius Pro UAV system literature.
Thanks - Questions