Very efficient algorithm for camera calibration dockerized
docker build -t <image-name> .Create a directory with the following disposal
The folders structure of <object-images> and <cameras-images> is <dataset>/<timestep>/<camera_id>.jpg
<volume-directory>
├── config.txt
├── <object-images>
│ ├── 0
│ │ └── 0.jpg
│ ├── 1
│ │ └── 1.jpg
...
│ └── cameras.json
└── <cameras-images>
├── 0
│ ├── 1.jpg
│ ├── 10.jpg
│ ├── 11.jpg
│ ├── 12.jpg
│ ...
├── 1
│ ├── 1.jpg
│ ├── 10.jpg
│ ├── 11.jpg
│ ├── 15.jpg
│ ...
...
└── cameras.json
Example of config file - config.txt
object_path:<object-images>
object_calib:cube-calib.pt
cameras_path:<cameras-images>
cameras_pose_est:pose_est.json
aruco:DICT_4X4_1000
marker_size:0.276
marker_ids:0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23
brightness:-150
contrast:120
{
"0": {
"fx": 711.1111111111111,
"fy": 711.1111111111111,
"cx": 640,
"cy": 360,
"resolution_x": 1280,
"resolution_y": 720,
"clip_start": 0.10000000149011612,
"clip_end": 1000,
"t": [5.816105365753174,21.875133514404297,2.772583246231079],
"R": [
[0.03479209542274475,-0.9984201192855835,0.044123295694589615],
[-0.9954691529273987,-0.038530927151441574,-0.08692909777164459],
[0.08849187195301056,-0.04089892655611038,-0.995236873626709]
],
"distortion": [0,0,0,0,0,0,0,0,0,0,0,0]
},
"1": {
"fx": 711.1111111111111,
"fy": 711.1111111111111,
"cx": 640,
"cy": 360,
"resolution_x": 1280,
"resolution_y": 720,
"clip_start": 0.10000000149011612,
"clip_end": 1000,
"t": [5.816105365753174,21.875133514404297,2.772583246231079],
"R": [
[0.03479209542274475,-0.9984201192855835,0.044123295694589615],
[-0.9954691529273987,-0.038530927151441574,-0.08692909777164459],
[0.08849187195301056,-0.04089892655611038,-0.995236873626709]
],
"distortion": [0,0,0,0,0,0,0,0,0,0,0,0]
},
"2": {
"fx": 711.1111111111111,
"fy": 711.1111111111111,
"cx": 640,
"cy": 360,
"resolution_x": 1280,
"resolution_y": 720,
"clip_start": 0.10000000149011612,
"clip_end": 1000,
"t": [5.816105365753174,21.875133514404297,2.772583246231079],
"R": [
[0.03479209542274475,-0.9984201192855835,0.044123295694589615],
[-0.9954691529273987,-0.038530927151441574,-0.08692909777164459],
[0.08849187195301056,-0.04089892655611038,-0.995236873626709]
],
"distortion": [0,0,0,0,0,0,0,0,0,0,0,0]
},
...
}{
"1": {
"fx": 711.1111111111111,
"fy": 711.1111111111111,
"cx": 640,
"cy": 360,
"resolution_x": 1280,
"resolution_y": 720,
"clip_start": 0.10000000149011612,
"clip_end": 1000,
"t": [-4.242201805114746,3.6500678062438965,2.7108936309814453],
"R": [
[-0.6672439575195312,-0.35407891869544983,0.6552966237068176],
[-0.7448351979255676,0.32009637355804443,-0.5854560732841492],
[-0.0024604161735624075,-0.8787299990653992,-0.4773128032684326]
],
"distortion": [0,0,0,0,0,0,0,0,0,0,0,0]
},
"2": {
"fx": 533.3333333333334,
"fy": 533.3333333333334,
"cx": 640,
"cy": 360,
"resolution_x": 1280,
"resolution_y": 720,
"clip_start": 0.10000000149011612,
"clip_end": 1000,
"t": [-1.9186244010925293,3.781113386154175,2.735273838043213],
"R": [
[-0.9999966025352478,-0.0022767793852835894,0.001121936016716063],
[-0.002230584854260087,0.5773668885231018,-0.8164815902709961],
[0.0012111797695979476,-0.8164814710617065,-0.577370285987854]
],
"distortion": [0,0,0,0,0,0,0,0,0,0,0,0]
},
...
}docker run -v ./<volume-dir>:/dataset <image-name> python src/object_calib.pydocker run -v ./<volume-dir>:/dataset <image-name> python src/pose_est.pyThis script finds in every .json the aruco ids and aggregates all ids to complete the config.thx
{
"corners": [
[[[538,574],[487,540],[549,545],[602,579]]],
[[[460,571],[415,536],[480,540],[535,577]]],
[[[369,569],[333,532],[407,536],[450,573]]]
],
"ids": [
[13],[12],[11]
]
}To calibrate the object it is needed to assume that the different pictures of the object was taken with different cameras. This script replicates the configuration of one camera to how many you need (in the example the number of cameras needed is N).
{
"0": {
"fx": 711.1111111111111,
"fy": 711.1111111111111,
"cx": 640,
"cy": 360,
"resolution_x": 1280,
"resolution_y": 720,
"clip_start": 0.10000000149011612,
"clip_end": 1000,
"t": [5.816105365753174,21.875133514404297,2.772583246231079],
"R": [
[0.03479209542274475,-0.9984201192855835,0.044123295694589615],
[-0.9954691529273987,-0.038530927151441574,-0.08692909777164459],
[0.08849187195301056,-0.04089892655611038,-0.995236873626709]
],
"distortion": [0,0,0,0,0,0,0,0,0,0,0,0]
}
}{
"0": {
"fx": 711.1111111111111,
"fy": 711.1111111111111,
"cx": 640,
"cy": 360,
"resolution_x": 1280,
"resolution_y": 720,
"clip_start": 0.10000000149011612,
"clip_end": 1000,
"t": [5.816105365753174,21.875133514404297,2.772583246231079],
"R": [
[0.03479209542274475,-0.9984201192855835,0.044123295694589615],
[-0.9954691529273987,-0.038530927151441574,-0.08692909777164459],
[0.08849187195301056,-0.04089892655611038,-0.995236873626709]
],
"distortion": [0,0,0,0,0,0,0,0,0,0,0,0]
},
...
"N": {
"fx": 711.1111111111111,
"fy": 711.1111111111111,
"cx": 640,
"cy": 360,
"resolution_x": 1280,
"resolution_y": 720,
"clip_start": 0.10000000149011612,
"clip_end": 1000,
"t": [5.816105365753174,21.875133514404297,2.772583246231079],
"R": [
[0.03479209542274475,-0.9984201192855835,0.044123295694589615],
[-0.9954691529273987,-0.038530927151441574,-0.08692909777164459],
[0.08849187195301056,-0.04089892655611038,-0.995236873626709]
],
"distortion": [0,0,0,0,0,0,0,0,0,0,0,0]
}
}