FOV_Test_data.ods

Data from the FOV test, including qualitative and quantitative results and images of the objects used.

spreadsheet - 10.54 MB - 07/11/2016 at 13:50

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Complexity_Data.ods

Data from the complexity test with architecture models, including qualitative and quantitative results.

spreadsheet - 17.65 kB - 07/11/2016 at 13:49

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Overlap_Angle_Test_data.ods

Data from the overlap angle test, including qualitative and quantitative results.

spreadsheet - 14.43 kB - 07/11/2016 at 13:49

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FOV_Calculations.xlsx

Excel file for user input to determine FOV and distance from object for specific camera parameters and desired resolution.

sheet - 9.47 kB - 07/11/2016 at 13:43

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Bismarkturm_final.mp4

A video of a 3D model of the Bismarkturm, a tower in Konstanz, Germany. This model was created by selecting photos from a collection of images taken during a drone flight. The original collection of photos did not calibrate and produce an accurate model. But, after careful selection based on results from previous trials in photogrammetry from my project, a quality model was produced.

MPEG-4 Video - 33.64 MB - 07/11/2016 at 13:43

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Imperia_Background.ply

3D Model of wall of rotunda that will be used as a fabricated background for the model of Imperia.

ply - 43.30 MB - 07/11/2016 at 13:43

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Imperia_cropped.zip

Example of cropped image of Imperia to superimpose over background.

x-zip-compressed - 5.71 MB - 07/11/2016 at 13:41

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Sharktooth_full.ply

Full merged triangle mesh of sharktooth.

ply - 42.95 MB - 07/11/2016 at 13:41

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Overlap_Angle_Test_optimal.ply

The optimal result of the oblique overlap angle test. This was the paper mache giraffe taken with 90% overlap at a 45 degree angle.

ply - 43.39 MB - 07/11/2016 at 13:38

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Bismarkturm_Full_edited.ply

A video of a 3D model of the Bismarkturm, a tower in Konstanz, Germany. This model was created by selecting photos from a collection of images taken during a drone flight. The original collection of photos did not calibrate and produce an accurate model. But, after careful selection based on results from previous trials in photogrammetry from my project, a quality model was produced.

ply - 31.91 MB - 07/11/2016 at 13:37

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karl_steuer_reduced.ply

This is another example of a difficult model that was accomplished by creating two different meshes (one of the top and one of the bottom) and then merging them in Blender.

ply - 3.52 MB - 07/11/2016 at 13:33

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Sharktooth_bottom.ply

This is the bottom of the Megaladon Sharktooth that was modeled with Pix4D Mapper.

ply - 4.49 MB - 07/11/2016 at 13:32

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Sharktooth_top.ply

This is the top of the Megaladon Sharktooth that was modeled with Pix4D Mapper.

ply - 4.22 MB - 07/11/2016 at 13:32

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Scale.JPG

Image of myself taking photos for a model of a structure near a park in Konstanz, Germany. This was a scale model and the meterstick can be seen in the bottom left corner of the image.

JPEG Image - 3.20 MB - 07/11/2016 at 13:31

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Photogrammetry and Modeling Basics.mp4

A video describing the basics of photogrammetry and how it image acquisition is crucial in creating 3D models.

MPEG-4 Video - 18.98 MB - 07/11/2016 at 10:06

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Sharktooth_final.mp4

A video of a 3D model of a Megaladon Sharktooth from the beaches of Wilmington, NC. This model is unique because it is a complete 360 degree model, with no part of the model fabricated through software such as Blender. This is the case in most models as they must be supported by an object and the surface covered by that support is inherently not part of the model.

MPEG-4 Video - 5.61 MB - 07/07/2016 at 14:31

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Rotunda_final.mp4

A video of a 3D model of the Maritius Rotunda, a religious altar in Konstanz, Germany. This model was created by merging projects of different sizes using combined image acquisition techniques.

MPEG-4 Video - 45.18 MB - 07/07/2016 at 14:24

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