Charlie Krueger
GEOG 336
Processing UAS data in Pix4D
Introduction:
This lab was slightly different then previous in the sense that the whole lab would be conducted using a computer. The data that was used in the lab was gathered already by Professor Hupy so it was already stored in a file that was accessible to the class. This lab would give the class a chance to use the program Pix4D, which is an amazing program for creating point cloud images. This program is one of the premier programs and is very easy to use so this is why it would be prefect to get a quick course it in. In a previous lab the class created some georeferenced mosaic of imagery, but the ones that would be created in this program would be much better in quality and would quickly give the measurements of imagery through this program. This program could do the work that top groups of the class like 3 hours to measure the height of the object 30 minutes to do a section at least 1000 times larger.
Methods:
Here is the volume measurement not working in Pix4D. The lab had instructed the class to measure one of the piles of material in the sand mine to create a volume for that pile. This was not possible because the computer would close pix4D mapper every time that a volume was trying to be valued from the map. If this issue did not occur then a proper volume could have be gathered.
Below are two different measurements being taken from the point cloud data and these are a measurement of a late object in the image and the surface area of the whole image. These tools were easy to learn and really showed how useful this software could be.
Processing UAS data in Pix4D
Part 1:
What is the overlap needed for Pix4D to process imagery?
The recommended frontal overlap is 75% and at least 60% side
overlap.
What if the user is flying over sand/snow, or uniform
fields?
The recommendation is to increase the overlap between images
to 85% frontal and 70% side, fly higher, and have accurate image geolocation
What is Rapid Check?
The Pix4Dmapper allows the user to process using a template
that templates are labeled Rapid/low res produces fast results at low
resolution to indicate whether the data set is good or not.
Can Pix4D process multiple flights? What does the pilot need
to maintain if so?
Yes, it can process multiple flights and the pilot must
maintain the same height for both of the flights so the spatial resolution is
similar.
Can Pix4D process oblique images? What type of data do you
need if so?
Yes, Pix4D can process oblique images with others like interior/exterior
and/or aerial/terrestrial and /or nadir.
Are GCPs necessary for Pix4D? When are they highly
recommended?
GCPs are not necessary but greatly add to the improvement of
the georeferenced and accuracy of the reconstruction of the image. In corridor
mapping, building reconstruction, city reconstruction, mixed reconstruction,
and large vertical object reconstruction
What is the quality report?
It gives information on the reconstructed surface about how
successful it was and how many errors there were during the process. It is a
big summary of everything that happened with the reconstruction of the image
and puts it into a write up separated by sections of importance.
Introduction:
This lab was slightly different then previous in the sense that the whole lab would be conducted using a computer. The data that was used in the lab was gathered already by Professor Hupy so it was already stored in a file that was accessible to the class. This lab would give the class a chance to use the program Pix4D, which is an amazing program for creating point cloud images. This program is one of the premier programs and is very easy to use so this is why it would be prefect to get a quick course it in. In a previous lab the class created some georeferenced mosaic of imagery, but the ones that would be created in this program would be much better in quality and would quickly give the measurements of imagery through this program. This program could do the work that top groups of the class like 3 hours to measure the height of the object 30 minutes to do a section at least 1000 times larger.
Methods:
To start the process of creating this image the data was taken from the TEMP folder of the geography program. This was data that was collected in Eau Claire not that far from the University of Wisconsin Eau Claire. The data was taken of a sand mine that worked near the Chippewa river and had large piles and other equipment on it. Data was then saved into a personal folder to be worked with in Pix4D. To start in Pix4D the images were loaded into the program then all the class had to do was sit back and watch the program run two different sets of images. In total it took about 25 minutes to get the data into the program and then to run the different image makers.
Results:
Below are all the results of the quality report produced by the image making process. It explains all the different actions that went into making this image and how well the image came out after the process. As it can be seen by the quality report it goes very in depth about how well the images captured by the drone were then turned into an image that could be used to survey the land and the mass on it.
Results:
Below are all the results of the quality report produced by the image making process. It explains all the different actions that went into making this image and how well the image came out after the process. As it can be seen by the quality report it goes very in depth about how well the images captured by the drone were then turned into an image that could be used to survey the land and the mass on it.
 |
| Here is the start of the quality report which is a big summary of the process that occurred in the image |
 |
| This image shows the flight pattern that the drone took while collecting data of the area |
Here is the volume measurement not working in Pix4D. The lab had instructed the class to measure one of the piles of material in the sand mine to create a volume for that pile. This was not possible because the computer would close pix4D mapper every time that a volume was trying to be valued from the map. If this issue did not occur then a proper volume could have be gathered.
 |
| Measuring a distance using the image. Here a point in the road is measured to a break in the road |
 |
| Here is surveying the whole land cover and seeing how much surface area the image had. |
Conclusion:
Through this lab the exposure to Pix4D really proved that this program is the best point cloud program out there for creating and analyzing data. Yes it was a bit confusing at first using the program but this is common with all new program users. The only downfall that was found was that the volume measurement tool caused the program to crash, but this could have also been from user error. Overall this program is well beyond any other program that was used during this course and if this program would have been used earlier a lot of the late nights in the lab could have been avoided because this program does it all.
Through this lab the exposure to Pix4D really proved that this program is the best point cloud program out there for creating and analyzing data. Yes it was a bit confusing at first using the program but this is common with all new program users. The only downfall that was found was that the volume measurement tool caused the program to crash, but this could have also been from user error. Overall this program is well beyond any other program that was used during this course and if this program would have been used earlier a lot of the late nights in the lab could have been avoided because this program does it all.
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