trimble uas aerial imaging solution - mfttt
TRANSCRIPT
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Trimble UAS
Aerial Imaging Solution
Vízhányó József, Esri Magyarország Kft.
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What is UAS?
An unmanned aerial vehicle (UAV), commonly known as a drone, is an aircraft without a human pilot on board. Its flight is controlled either autonomously by computers in the vehicle, or under the remote control of a pilot on the ground or in another vehicle.
The term unmanned aircraft system (UAS) emphasizes the importance of other elements beyond an aircraft itself. A typical UAS consists of the:– unmanned aircraft (UA)
– control system, such as Ground Control Station (GCS)
– control link, a specialized datalink
– other related support equipment.
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Why UAS Aerial Imaging?
New emerging technology well suited for surveyors & engineers
Complimentary to traditional surveying technologies and to traditional photogrammetry
Many UASs, but not many targeting the surveying industry yet
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2013 • Trimble Business Center Photogrammetry Module released
• Trimble UX5 Aerial Imaging Solution released
2012 • Gatewing acquired by Trimble
2010 • Gatewing X100 released
2008 • Gatewing founded
• First idea for a surveying UAS within Gatewing
2009 • First Gatewing prototype for surveying
2011 • First desktop image processing software for UAS surveying from Gatewing
2007 • Inpho GmbH acquired by Trimble
History of UAS Aerial Imaging Solutions for
Surveying in Trimble
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Benefits of Aerial Imaging Solutions
Economic solution – enables aerial mapping technology, once reserved for the largest surveying & engineering firms, to be used by the masses
Safety – enables surveying of rugged, hazardous, hard-to-reach or unhealthy areas without risking injury (or worse) to them or individuals in the area
Efficient process – ability to collect and process data faster than often achievable with terrestrial-based survey technology
Rapid workflow – system is designed to quickly plan a flight and collect data, allowing rapid response to your customer’s needs (traditional photogrammetry processes
Versatile – a technology that can be used to serve numerous professional markets and applications
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Current Use of Trimble UAS
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Target Markets
Engineering & Surveying
Mining
Civil & Heavy Earthworks
Construction
Oil & Gas
Environmental & Landfill
Public Agencies
Agriculture & Forestry
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Topographic Survey ExampleUAS GNSS Comments
Area 1.5 km2 1.5 km2
Ground control setup &
measurement 1 ¼ hr ---
Ground control not
required for all
applications
Setup time 15 min 15 min (per day)
Survey time 45 min 30 ½ hr (4 days)
Tear-down time 15 min 15 min (per day)
Data processing time 4 hrs
(2.80 GHz Intel Core i7,
16 GB RAM)
---Data can be
processed overnight
Total time 6 hr 30 min 32 hr 30 min 5x faster than GNSS
Measurement sampling 3.8 cm
(120 m flight altitude)15 m
Minimum sampling
size is 2.4 cm
Horizontal accuracy 2 cm 1 cm
Vertical accuracy 4 cm 2 cm
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Topographic Survey Example
Surface model generated from
GNSS survey (1,000 measurements)
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Topographic Survey Example
Surface model generated from
UAS survey (300,000 measurements)
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Progress Monitoring Example
United Kingdom
150 m Flight Height
5.7 cm GSD
2.4 km2
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Progress Monitoring Example
Problem UAS Feature Benefit
Progress
Monitoring
• Lack of current overview
view of site
• Scaled, geo-referenced
orthophotos created
• Easy to visualized and
understand progress by all
stakeholders
• Possibility of leaving the site
with incomplete
measurements
• “Over-flight” ensures the
entire site is measured
• Eliminate the time & costs
associated wit having to send
a crew out to fill-in missing
measurement
• Traditional methods often
interrupt site operations
• Remote sensing
measurements keep
operators away from
• Delays in site productivity
can lead to unplanned costs
and schedule delays
United Kingdom
150 m Flight Height
5.7 cm GSD
2.4 km2
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Vegetation Health Example
Assenede
288 Images
100 m Flight
Height
5 cm GSD
1.5 km2
Color relates to
Normalized
Difference
Vegetation Index
(NDVI) value -
indication of health
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Vegetation Health Example
Problem UAS Feature Benefit
Vegetation
Health
• Large area to be surveyed• Up to 7.5 km2 coverage per
flight
• Reduced time & cost to
collect data
• Traditional survey
technologies to not offer the
ability to determine health of
vegetation
• NIR camera provides visual
indication of different types
and health of vegetation
• Clear understanding of
health of vegetation to make
the appropriate decisions for
operations
Assenede
288 Images
100 m Flight
Height
5 cm GSD
1.5 km2
Color relates to
Normalized
Difference
Vegetation Index
(NDVI) value -
indication of health
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System Overview
Trimble UX5 Aerial Imaging
Solution
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Flying the Trimble UX5 in Agriculture
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Trimble UX5 Aerial Imaging SolutionTrimble Access
Aerial Imaging
Trimble UX5
Aerial Imaging Rover
Trimble Business Center
Photogrammetry Module
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Trimble UX5 Aerial Imaging Process
Mission & flight planning– Trimble Access Aerial Imaging application
Image acquisition & flight monitoring– Trimble UX5 Aerial Imaging Rover
– Trimble Access Aerial Imaging application
Image processing & creating deliverables– Trimble Business Center Photogrammetry
Module
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Mission planning Create background map and add optional layers
Define mission area and avoidance zones
Define GSD, height and overlap
In the office or in the field
Flight planning Calculate and plan multiple flights for a mission
Define wind direction, takeoff location andlanding location
In the field
Flight operation Monitor the flight
Trigger emergency actions when needed
In the field
Analysis Check completeness of data
In the office or in the field
Trimble Access Imaging Application
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Defining the Project Area
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Defining the Flight
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Flight Checklist
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Flight Operation
Flight is controlled by the autopilot system– Based on the mission & flight plan from Trimble Access Aerial Imaging
application
Flight parameters & performance displayed– Virtual horizon
– GPS lock
– Communication link strength
– Battery level
– Aircraft height & speed (actual & planned)
– Aircraft location & flight lines (on map)
Manual evasive maneuvers available (if necessary)
Landing confirmation
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Flight Monitoring
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Land– Instruct aircraft to follow land circuit before flight path is
finished
Fly To– Fly to a user-specified location on map and circle
Hold– Circle at current position
Here– Fly to location of pilot/GCS and circle
Right– Fly 300 m to the right of current heading and circle
FTS (Flight Termination System)– Abort flight immediately and spiral downward
Up– Instruct UA to increase altitude by 10 m
– Available once a flight maneuver is enacted
Down– Instruct UA to decrease altitude by 10 m
– Available once a flight maneuver is enacted
Safety Maneuvers
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Trimble UX5 Aerial Imaging Rover
Airframe– Internal carbon frame
– Expanded polypropylene foam body
– Engine & propeller
– Servo-controlled elevons
Payload Bay– Battery
– Camera
– Tracking beacon
eBox– GPS & orientation sensors
– 2.4 GHz radio
– Autopilot
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UX5 Specifications Weight: 2.5 kg
Wingspan: 100 cm
Launch Type: Catapult
Cruise Speed: 80 km/h
Endurance (flight time): 50 min
Flight Height (AGL): 75-750 m
Coverage (@ 5 cm GSD): 2.19 km2
Coverage (@ 10 cm GSD): 4.94 km2
GSD: 2.4-24 cm
Flight Ceiling: 5000 m
Wind Speed: 65 km/h
Landing Type: Belly
Camera: Sony NEX5R (16.1 MP)
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UX5 Top
Payload Bay
eBox
EngineServos
Winglets
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UX5 Belly
Camera Lens
Belly Plate
Elevon
Leading Edge
Propeller
Launcher Slats
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UX5 Airframe
Internal carbon frame
Expanded polypropylene foam
Impact resistant plastics– Motor assembly
– eBox
– Servos
Composite fiber parts– Elevons
– Vertical winglets
– Belly plate
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UX5 Payload Bay
Battery
Camera
Tracking Beacon Slot
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UX5 Camera
Sony a5100 digital camera
24.3 MP with APS-C sensor
Fixed-optics Voigtlander lens
Standard color & Near Infra-
Red versions
Fixed lens increases the
stability of the camera internal
geometry
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UX5 Camera Sensor Size
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UX5 eBox
Download Port
Radio antenna
GPS Antenna
Power Button &
Status LEDsPitot Tube
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Launcher
Consistent launch– Speed
– Launch angle
– No risk of stall
– Short learning curve for operator
– Less stressful(user has to control speed & angle with a hand launch)
Safety– Consistent & controlled launch sequence
– User not exposed to running motor
– Complies with Machinery Directive 2006/42/EC
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Ground Control Station
Rugged Tablet
– Trimble Yuma
Flight Planning & Control
Software
Communications Link
Download Connector
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Compact Landing Area
Trimble UX5
15 m15 m
25 m
25 m
Wind
UX5 Tracking Beacon – just in case
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Trimble Business Center
Photogrammetry Module
Office application for processing traditional
and Trimble UAS survey data
64-bit processor / operating system
requirement
Photogrammetry processing using
technology from Inpho
Simple workflows for importing flight data,
stitching images, identifying ground control
points, producing deliverables, and
measuring features
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Visualize the Flight
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Measure Ground Control Points
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View Ground Control Point Relationships
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Create Deliverables
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Create Orthomosaics
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Create Digital Surface Models
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Create Point Clouds
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Create Surface
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Create Contours
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Examples
Trimble UAS Aerial Imaging
& Trimble Business Center
Photogrammetry Module
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Vaxholm Castle,
Sweden
126 Images
120 m Flight Height
3.8 cm GSD
550 x 600 m
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Vaxholm Castle,
Sweden
126 Images
120 m Flight Height
3.8 cm GSD
550 x 600 m
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Vaxholm Castle,
Sweden
126 Images
120 m Flight Height
3.8 cm GSD
550 x 600 m
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Vaxholm Castle,
Sweden
126 Images
120 m Flight Height
3.8 cm GSD
550 x 600 m
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Pit Mine, Argentina
362 Images
200 m Flight Height
6.4 cm GSD
500 x 900 m
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Pit Mine, Argentina
362 Images
200 m Flight Height
6.4 cm GSD
500 x 900 m
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Pit Mine, Argentina
362 Images
200 m Flight Height
6.4 cm GSD
500 x 900 m
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Pit Mine, Argentina
362 Images
200 m Flight Height
6.4 cm GSD
500 x 900 m
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Industrial Park,
Denmark
139 Images
100 m Flight Height
3.3 GSD
300 x 600 m
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Industrial Park,
Denmark
139 Images
100 m Flight Height
3.3 GSD
300 x 600 m
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Landfill, Colorado
588 Images
175 m Flight Height
6 cm GSD
1.2 km2
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Landfill, Colorado
588 Images
175 m Flight Height
6 cm GSD
1.2 km2
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Landfill, Colorado
588 Images
175 m Flight Height
6 cm GSD
1.2 km2
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Airport,
Farkashegy
124 Images
75 m Flight Height
2.4 cm GSD
1.2 km2
Esri ArcGIS for Desktop
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Airport,
Farkashegy
124 Images
75 m Flight Height
2.4 cm GSD
1.2 km2
Esri ArcGIS for Desktop
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Airport,
Farkashegy
124 Images
75 m Flight Height
2.4 cm GSD
1.2 km2
Esri ArcGIS for Desktop
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Airport,
Farkashegy
124 Images
75 m Flight Height
2.4 cm GSD
1.2 km2
Esri ArcGIS for Desktop
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Airport,
Farkashegy
124 Images
75 m Flight Height
2.4 cm GSD
1.2 km2
Esri ArcGIS for Desktop
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Airport,
Farkashegy
124 Images
75 m Flight Height
2.4 cm GSD
1.2 km2
Esri ArcGIS for Desktop
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Airport,
Farkashegy
124 Images
75 m Flight Height
2.4 cm GSD
1.2 km2
Esri ArcGIS for Desktop