drone2map for arcgis: bring drone imagery into arcgis

Drone2Map for ArcGIS: Bring Drone

Imagery into ArcGIS

Will Meyers

@MeyersMaps

A New Window on the World

High Quality

Personal Mapping for Micro-Geographies

Simple

Low-Cost

Accurate

Drone2Map for ArcGIS

ArcGIS

Turn Drones into Enterprise Productivity Tools

Know your Airspace

Drone2MapAutomated and Simple Drone Data Processing

Geolocated Images GIS Ready ProductsKeypoints and Matches

Drone2Map modes of operation

1. Rapid for in-field flight verification

Drone2Map modes of operation

1. Rapid for in-field flight verification

2. 2D mode for orthomapping

Orthomosaics

Digital Surface Models

Drone2Map modes of operation

1. Rapid for in-field flight verification

2. 2D mode for orthomapping

3. 3D mode for models of buildings &

solid structures

Point Clouds and Meshes

3D PDF

Drone2Map modes of operation

1. Rapid for in-field flight verification

2. 2D mode for orthomapping

3. 3D mode for models of buildings &

solid structures

4. Inspection mode for managed high

resolution imagery

Smart Inspection

Share Drone Imagery FastGet Imagery Products To Your Users When They Need It

2D products Tile Layers

Share Drone Imagery FastGet Imagery Products To Your Users When They Need It

3D products Scene layers

What’s New Since BetaBuilding a Better App with Your Contributions!

Offline Use

3D Mapping

Ground Control

Process by Area

Flexible

Processing

Templates

GROUND CONTROLWhat, Why and How

• Ground control points are features with known coordinates that can be identified

in your raw images.

- Coordinates must be entered into the software.

• Without ground control, GPS alone enables outputs that are in approximately the

proper location & scale, but accuracy will be unspecified (x, y, and z).

• Control points are necessary to ‘anchor’ your project. With adequate control, the

natural rigidity of the geometry provides good accuracy between control points.

• Best practices:

- Multiple points, distributed around project.

- Survey all control in the field (if possible), with high contrast markers (Size > 10 pixels).

- Some points withheld from processing as checkpoints to measure accuracy.

Best Practices for Drone2Map

1. Ensure your flight plan captures good quality data

- Overlap ~70% or more, proper focus & exposure

Side

Overlap

Forward

Overlap

2D Imagery Products

Orbit

One

Orbit

Two

Inspection and 3D Products

Best Practices for Drone2Map

1. Ensure your flight plan captures good quality data

- Overlap ~70% or more, proper focus & exposure

2. Run initial processing without creating any outputs, then review processing

report before proceeding

3. Ground control should be considered mandatory

4. If project includes oblique imagery, use a clip polygon

5. Scaling up to large projects

- Duplicate images with GCPs in overlap (Future release will allow project merge)

6. Data management

- All flight metadata in geodatabase

- Outputs and possibly raw images managed using mosaic datasets

USACE Drone2Map Project

Wrightsville Beach

Project ObjectivesUAS for Surveying, Engineering & Construction

Orthos

Elevation

3D

Wrightsville Beach

ResultsUAS for Surveying, Engineering & Construction

Total Area Processed

Sony R10C

Total 195 / 1.25GB

Collection Time < 1hr / 2flts

Ground Control Used Photos Collected Output Parameters

Oceanic Pier to

Masonboro Inlet

71.62 Acres

14 Points

Fully Surveyed

Processing Time: 4 hrs 32 mins

Products Produced: Orthos, DSM, Point Cloud, 3D Mesh

Overall Accuracy: Mean RMS 1.27 inches

Horizontal GSD – 1.21 in

3D Points / Meter - 104

Verified by:

Engineering and Survey

Project Comparisons

• UAS vs. Conventional Survey

- Accuracy - UAS is within 4 cm on control points

- Cost - UAS is 30% less expensive for competitive project

- Time - UAS captures greater detail in less time

• UAS vs. Terrestrial LiDAR

- Accuracy - UAS is within 2 cm of LiDAR specifications

- Cost - UAS is 15% less expensive for competitive project

- Time - Similar mobilization & coverage, faster collect & processing

• UAS vs. Aerial LiDAR

- Accuracy - UAS is within 2 cm of LiDAR specifications

- Cost - UAS is 60% less expensive for competitive project

- Time - Similar coverage, faster mobilization & processing

Verified by:

Demo

Find Out What Your Drone

Can Do For You

http://www.esri.com/drone2map

Drone2Map for ArcGISAccurate 2D & 3D Map Products

• A Windows App running on a PC or Surface Tablet

• Standalone - does not require ArcGIS for Desktop

• Includes an ArcGIS Online Individual Account

ArcGIS

Online

Fly Drone Run App Get Map

marketplace.arcgis.com

Sample Data http://doc.arcgis.com/en/drone2map/

Other imagery courses from Esri

Imagery web-courses:

Image Processing with ArcGIS

Orthorectifying Satellite Imagery Using ArcGIS

Change Detection Using Imagery

Displaying Raster Data Using ArcGIS

Georeferencing Raster Data Using ArcGIS

Managing Raster Data Using ArcGIS

(mosaic datasets)

New, coming this fall:

Displaying Raster Data Using ArcGIS Pro

Processing Raster Data with ArcGIS Pro

Lidar web courses:

Managing Lidar Data Using LAS Datasets

Managing Lidar Data Using Mosaic Datasets

Managing Lidar Data Using Terrain Datasets

Drone2Map

Future courses are under development

Instructor-led imagery course is Image Analysis with ArcGIS