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To consult the general wiki page of the itowns project, go to https://github.com/iTowns/itowns-project/wiki
This specification is written against pull request #20.
Images should be accessible over http using a url pattern (see below) Their format should be compatible with the THREE.js WebGL library, such as JPEG or PNG.
The image locations are provided by an url template, like images/140616/Paris-140616_0740-{cam}-00001_{pano}.jpg
, where cam
and pano
are placeholders for the camera and panoramic names, respectively.
Images are, for now, considered to be composed of a set of panoramics where each panoramic is itself a set of unassembled images from a rigid multi-camera panoramic head. We also assume that the panoramic camera head is rigid such that the relative positions and rotations of image sensors are constant across panoramics. Thus image metadata is provided by two JSON files : panoramic poses and camera calibrations
TODO: Explicit the frame conventions and provide an illustration.
The panoramic head moving frame is defined by a JSON file providing an array of panoramic objects:
[
{
"pano": "0000482",
"easting": 651187.76,
"northing": 6861379.05,
"altitude": 39.39,
"heading": 176.117188,
"roll": 0.126007,
"pitch": 1.280821,
"date": "2014-06-16T12:31:34.841"
},
...
]
-
pano
is the string id of this panoramic. -
easting
,northing
,altitude
is the origin of the moving panoramic frame defined in some static world coordinate system. The example above uses Lambert93 coordinates. -
heading
,roll
andpitch
provide the orientation of the moving frame using three Euler angles (in degrees). -
date
denotes the simultaneous time of acquisition of all the images of this panoramic as an RFC2822 or ISO 8601 date string.
Image calibration should be provided using a json file containing an array of object of the following form, which describe all the cameras of the panoramic head :
[
{
"cam": "300",
'mask': 'images/mask300.jpg',
"rotation": [
0.000735648, -0.00148884, -0.999999,
0.999998 , 0.00205265, 0.000732591,
0.00205156 , -0.999997 , 0.00149035
],
"position": [ -0.145711, -0.0008142, -0.867 ],
"projection": [
1150.66785706630299, 0 , 1030.29197487242254,
0 , 1150.66785706630299, 1023.03935469545331,
0 , 0 , 1
],
"size" : [2048, 2048],
"distortion": {
"pps": [1042.178,1020.435],
"poly357": [ -1.33791587603751819E-7, 3.47540977328314388E-14, -4.44103985918888078E-21 ]
},
"orientation": 3
},
...
]
-
cam
provides a camera name to the calibration (which may be used to generate image urls) -
mask
is an optional attribute which is an URL relative to this JSON file of à gray-level image. Themask
is not necessarily of the same size as the image as it will be stretched automatically. White pixels are 100% masked and black pixels are fully kept. As such, not providing amask
image is equivalent to providing a 1x1 black image. -
rotation
is an array of 9 floats, describing a 3x3 rotation matrix from panoramic coordinates (to be defined) to camera coordinates (X along lines, Y along columns, Z along the optical axis) -
position
denotes the image center position with respect to the panoramic coordinate frame -
projection
provides a 3x3 projection matrix from the 3D camera frame to the projective 2D image frame (in pixels). The common case is to provide the following matrix, wherefocal
denotes the focal length along rows and columns in pixels andppa
denotes the principal point of autocollimation in pixels :focal.x , 0 , ppa.x, 0 , focal.y , ppa.y, 0 , 0 , 1
-
distortion
is optional.size
is the sensor size (in pixels) andpps
is the distortion center (in pixels). -
poly357
provide the r3, r5 and r7 coefficients of a distortion polynom. ([0,0,0]
means no distortion) -
orientation
adds a further rotation of 0,90,180 or 270 degrees around the optical axis. It is redundant withrotation
and is likely to be deprecated in future releases.orientation:3
denotes no rotation.
For performance, you should resample some or all your images to remove any distortion
and encode the mask
in its alpha channel.
TODO
TODO
TODO
TODO