Orthomosaic of Cray Fish Range (Zone 2), Belize. Images were collected in March 2017 as part of the Open Reef Mapping Society using DJI Phantom 4 quadcopters. Quadcopters were flown at an average altitude of 150m. Flight time for Cray Fish Range (Zone 2) was 25 minutes. Images were processed using Esri's Drone2Map to create this orthomosaic. The spatial resolution of this orthomosaic is 6.65cm per pixel.This orthomosaic is open-source, freely available, and is not intended to be used for nefarious or illegal purposes. Our goal is to provide the imagery to stimulate citizen science and greater scientific discovery of the islands of Belize. This orthomosaic is not guaranteed to be 100% spatially accurate and should not be used for nautical/charting purposes. Differences in location may be due to errors in processing or previously outdated imagery.Images for this orthomosaic were collected in collaboration with Open Reef Mapping Society, Citizen Science GIS, Coastal Zone Management Authority and Institute (CZMAI), University of Central Florida, and University of Belize.When using this orthomosaic please cite Open Reef Mapping Society, Citizen Science GIS, Coastal Zone Management Authority and Institute (CZMAI), University of Central Florida, and University of Belize in the credits section.

3D Mash, Beflogen mit WINGTRA, Prozessiert und Publiziert mit Drone2Map

Orthophotoplan du circuit de CLASTRES

Orthomosaic map of the June 23, 2020, Sturgeon Point, ON tornado generated in Drone2Map via drone imagery collected on June 25, 2020. DJI Mavic 2 Pro collected 652 images. Please note that imagery may be distorted on the edges of the imagery.View event map here

GUGNY (MNS) : survol du 16 décembre 2020

Orthomosaic of Grassy Caye Range (Zone 2), Belize. Images were collected in March 2017 as part of the Open Reef Mapping Society using DJI Phantom 4 quadcopters. Quadcopters were flown at an average altitude of 150m. Flight time for Grassy Caye Range (Zone 2) was 19 minutes. Images were processed using Esri's Drone2Map to create this orthomosaic. The spatial resolution of this orthomosaic is 6.91cm per pixel.This orthomosaic is open-source, freely available, and is not intended to be used for nefarious or illegal purposes. Our goal is to provide the imagery to stimulate citizen science and greater scientific discovery of the islands of Belize. This orthomosaic is not guaranteed to be 100% spatially accurate and should not be used for nautical/charting purposes. Differences in location may be due to errors in processing or previously outdated imagery.Images for this orthomosaic were collected in collaboration with Open Reef Mapping Society, Citizen Science GIS, Coastal Zone Management Authority and Institute (CZMAI), University of Central Florida, and University of Belize.When using this orthomosaic please cite Open Reef Mapping Society, Citizen Science GIS, Coastal Zone Management Authority and Institute (CZMAI), University of Central Florida, and University of Belize in the credits section.

route de grugies,gauchy,ortho

At https://learn.arcgis.com, users find scenario-based tutorials, using specific tools, built by Esri and users. Explore filters at top left of the gallery. K12 students and educators may explore tutorials that engage software in the ArcGIS School Bundle -- ArcGIS Online (includes Map Viewer, Scene Viewer, Survey123, Field Maps, QuickCapture, Dashboard, Story Maps, Experience Builder, Hub, Instant Apps, Web AppBuilder), Business Analyst, Community Analyst, GeoPlanner, Insights, ArcGIS Pro, ArcGIS Urban, and Drone2Map.These tutorials rely on the user having a proper license. K12 students and teachers may use these tutorials via their assigned school Org login, which should prevent sharing personally identifiable information.

This is drone product set B from Chapter II of Alexandra's dissertation.The orthomosaic and DSM show East Branch Piscataqua River in Falmouth, ME, USA. The imagery was collected on October 16, 2017 using a DJI Phantom 3 Professional drone. Note that the elevation values are only reliable for examining relative topography across the site. The built-in drone GPS was used for georeferencing during SfM processing, and the EXIF data provided inaccurate altitude measurements. The XY locations are more reliable based on checks against alignment with base maps in ArcGIS. The drone PS' relative accuracy was deemed acceptable for the purposes in Chapter II. Automated drone flight paths were used to collect nadir and angled aerial images with sufficient image overlap for SfM processing in Agisoft PhotoScan Professional. The PhotoScan-generated report includes additional details on the SfM processing workflow and on the drone products.Please see Alexandra's dissertation (University of New Hampshire) for more information on the drone products and project.These materials were made using resources from an NSF EPSCoR funded project “RII Track-2 FEC: Strengthening the scientific basis for decision-making about dams: Multi-scale, coupled-systems research on ecological, social, and economic trade-offs” (a.k.a. "Future of Dams"). Support for this project is provided by the National Science Foundation’s Research Infrastructure Improvement NSF #IIA-1539071. Any opinions, findings, and conclusions or recommendations expressed in this material are those of the author(s) and do not necessarily reflect the views of the National Science Foundation.

Orthomosaic map of the July 24, 2019, Hanmore Lake, AB tornado generated in Drone2Map via drone imagery collected on July 26, 2019. DJI Mavic 2 Pro collected 286 images. Raw imagery can be found in the dynamic mosaic layer. Please note that imagery may be distorted on the edges of the orthomosaic map.View event map here

Digital Surface Model (DSM) of the June 29, 2019, Kemptville, ON downburst generated in Drone2Map via drone imagery collected on July 13, 2019. DJI Mavic 2 Pro colleted 1051 images. Raw imagery can be found in the dynamic mosaic layer. Please note that imagery may be distorted on the edges of the orthomosaic map.View event map here

Orthomosaic of Billy Hawk Caye, Belize. Images were collected in October 2016 as part of the Open Reef Mapping Society using DJI Phantom 4 quadcopters. Quadcopters were flown at an altitude of 150m with a picture frequency of 7 seconds. Flight time for Billy Hawk Caye was 2 minutes. Images were processed using Esri’s Drone2Map to create this orthomosaic. The spatial resolution of this orthomosaic is 6.42cm per pixel.This orthomosaic is open-source, freely available, and is not intended to be used for nefarious or illegal purposes. Our goal is to provide the imagery to stimulate citizen science and greater scientific discovery of the islands of Belize. This orthomosaic is not guaranteed to be 100% spatially accurate and should not be used for nautical/charting purposes. Differences in location may be due to errors in processing or previously outdated imagery.Images for this orthomosaic were collected in collaboration with Open Reef Mapping Society, Citizen Science GIS, Coastal Zone Management Authority and Institute (CZMAI), University of Central Florida, and University of Belize.When using this orthomosaic please cite Open Reef Mapping Society, Citizen Science GIS, Coastal Zone Management Authority and Institute (CZMAI), University of Central Florida, and University of Belize in the credits section.

Orthomosaic of Coco Plum Caye (South), Belize. Images were collected in October 2016 as part of the Open Reef Mapping Society using DJI Phantom 4 quadcopters. Quadcopters were flown at an altitude of 150m with a picture frequency of 7 seconds. Flight time for Coco Plum Caye (South) was 5 minutes. Images were processed using Esri’s Drone2Map to create this orthomosaic. The spatial resolution of this orthomosaic is 6.21cm per pixel.This orthomosaic is open-source, freely available, and is not intended to be used for nefarious or illegal purposes. Our goal is to provide the imagery to stimulate citizen science and greater scientific discovery of the islands of Belize. This orthomosaic is not guaranteed to be 100% spatially accurate and should not be used for nautical/charting purposes. Differences in location may be due to errors in processing or previously outdated imagery.Images for this orthomosaic were collected in collaboration with Open Reef Mapping Society, Citizen Science GIS, University of Central Florida, and University of Belize.When using this orthomosaic please cite Open Reef Mapping Society, Citizen Science GIS, University of Central Florida, and University of Belize in the credits section.

Orthomosaic map of June 29, 2019, Kemptville, ON downburst generated in Drone2Map via drone imagery collected on July 13, 2019. DJI Mavic 2 Pro collected 1051 images. Raw drone imagery can be found in dynamic mosaic layer. Please note that imagery may be distorted on the edges of the orthomosaic map.View event map here

Additional photos collected via drone for the July 19, 2020, Thedford, ON tornado. Ground survey conducted July 22, 2020. DJI Mavic 2 Pro used to capture 28 photos. Does not include videos or drone mapping photos [where applicable].View event map here

Flight paths of drone surveys used to capture imagery and video for the June 2, 2019, Orleans - Baie Clément, ON-QC and Clarence Creek, ON tornadoes. Ground survey conducted June 3-4, 2019. DJI Mavic 2 Pro performed 2 flights. Please note that drones are also used for scouting the initial area of interest using a live view on the controller, meaning that some flight paths may not be associated with any imagery. Does not include flights where drone mapping was conducted.View Orleans Event Summary Map hereView Clarence Creek Event Summary Map here

Digital Terrain Model (DTM) of the June 23, 2020, Sturgeon Point, ON tornado generated in Drone2Map via drone imagery collected on June 25, 2020. senseFly eBee X collected 2314 images. Please note that imagery may be distorted on the edges of the orthomosaic map.View event map here

Orthomosaic of Western Four Cayes (Zone 2), Belize. Images were collected in March 2017 as part of the Open Reef Mapping Society using DJI Phantom 4 quadcopters. Quadcopters were flown at an average altitude of 150m. Flight time for Western Four Cayes (Zone 2) was 31 minutes. Images were processed using Esri's Drone2Map to create this orthomosaic. The spatial resolution of this orthomosaic is 6.69cm per pixel.This orthomosaic is open-source, freely available, and is not intended to be used for nefarious or illegal purposes. Our goal is to provide the imagery to stimulate citizen science and greater scientific discovery of the islands of Belize. This orthomosaic is not guaranteed to be 100% spatially accurate and should not be used for nautical/charting purposes. Differences in location may be due to errors in processing or previously outdated imagery.Images for this orthomosaic were collected in collaboration with Open Reef Mapping Society, Citizen Science GIS, Coastal Zone Management Authority and Institute (CZMAI), University of Central Florida, and University of Belize.When using this orthomosaic please cite Open Reef Mapping Society, Citizen Science GIS, Coastal Zone Management Authority and Institute (CZMAI), University of Central Florida, and University of Belize in the credits section.

Orthomosaic of Round Caye, Belize. Images were collected in October 2016 as part of the Open Reef Mapping Society using DJI Phantom 4 quadcopters. Quadcopters were flown at an altitude of 150m with a picture frequency of 7 seconds. Flight time for Round Caye was 2 minutes. Images were processed using Esri's Drone2Map to create this orthomosaic. The spatial resolution of this orthomosaic is 6.4cm per pixel.This orthomosaic is open-source, freely available, and is not intended to be used for nefarious or illegal purposes. Our goal is to provide the imagery to stimulate citizen science and greater scientific discovery of the islands of Belize. This orthomosaic is not guaranteed to be 100% spatially accurate and should not be used for nautical/charting purposes. Differences in location may be due to errors in processing or previously outdated imagery.Images for this orthomosaic were collected in collaboration with Open Reef Mapping Society, Citizen Science GIS, Coastal Zone Management Authority and Institute (CZMAI), University of Central Florida, and University of Belize.When using this orthomosaic please cite Open Reef Mapping Society, Citizen Science GIS, Coastal Zone Management Authority and Institute (CZMAI), University of Central Florida, and University of Belize in the credits section.

Orthomosaic of CBC 30, Belize. Images were collected in July 2017 as part of the Open Reef Mapping Society using DJI Phantom 4 Pro quadcopters. Quadcopters were flown at an average altitude of 200m. Flight time for CBC 30 was 17 minutes. Images were processed using Esri's Drone2Map to create this orthomosaic. The spatial resolution of this orthomosaic is 4.15cm per pixel.This orthomosaic is open-source, freely available, and is not intended to be used for nefarious or illegal purposes. Our goal is to provide the imagery to stimulate citizen science and greater scientific discovery of the islands of Belize. This orthomosaic is not guaranteed to be 100% spatially accurate and should not be used for nautical/charting purposes. Differences in location may be due to errors in processing or previously outdated imagery.Images for this orthomosaic were collected in collaboration with Open Reef Mapping Society, Citizen Science GIS, The Smithsonian Institute, and University of Central Florida.When using this orthomosaic please cite Open Reef Mapping Society, Citizen Science GIS, The Smithsonian Institute, and University of Central Florida in the credits section.