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Pure Javascript porting of ArUco, a library for camera pose estimation using squared markers

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JS-ARUCO2

js-aruco2 is a fork of js-aruco that supports also the ARUCO_MIP_36h12 dictionary and any other ArUco or custom dictionary for square markers. Additionally, this library is ready to be used in NodeJS to recognize markers from FFMPEG video streams and allows to generate markers in SVG format.

js-aruco2 is a pure Javascript implementation of ArUco, a minimal library for Augmented Reality applications based on OpenCv.

Demos

100% client side JavaScript, running in your browser (see details below):

Markers

A square grid with an external unused black border. Internal cells contains id information.

The markes are recognized using the dictionary specified. The library currently support the following dictionaries:

The library can be anyway easily adapted to work with any other ArUco dictionary for square markers.

Usage

Create an AR.Detector object using default ARUCO_MIP_36h12 dictionary:

var detector = new AR.Detector();

Create an AR.Detector object using a specific dictionary (dictionaries available out of the box in the library are 'ARUCO' and 'ARUCO_MIP_36h12'):

var detector = new AR.Detector({
  dictionaryName: 'ARUCO'
});

Additionally, is possible to specify a custom hamming distance for the specified dictionary:

var detector = new AR.Detector({
  dictionaryName: 'ARUCO_MIP_36h12',
  maxHammingDistance: 5
});

In the previous sample, the default maximum allowed hamming distance of the dictionary ARUCO_MIP_36h12 (that is 12) is replaced with 5. Doing so will be identified only markers with a detection error below 5, making the detection more reliable in case of high resolution images, at the cost of skipping possibles relevant markers in low resolution images.

Markers detection on Canvas images

Call detect function with imageData parameter:

var markers = detector.detect(imageData);

markers result will be an array of AR.Marker objects with detected markers.

AR.Marker objects have two properties:

  • id: Marker id.
  • corners: 2D marker corners.

imageData argument must be a valid ImageData canvas object.

var canvas = document.getElementById("canvas");
    
var context = canvas.getContext("2d");

var imageData = context.getImageData(0, 0, width, height);

Markers detection on RGBA Raw images

Call detect function with width, height and data parameters:

var markers = detector.detect(width, height, data);

width and height must be integer numbers representing the image size. data must be an 8-bit unsigned ArrayBuffer (eg. Uint8ClampedArray) containing the sequence of RGBA image bytes (R, G, B, A, R, G, B, A, R, G, B, A, ....).

Markers detection on RGBA video stream

Initialize the stream detection calling the detectStreamInit function with width, height and callback parameters:

detector.detectStreamInit(width, height, callback);

width and height must be integer numbers representing the size of video image. callback must be a function that accept two parameters: the first is the image processed and the second the markers list detected

var callback = function (image, markerList) {
  console.log(markerList);
};

The callback function will be called every time an image in the video stream is processed, providing the markers detection results.

After this initialization phase, the function detectStream must be called every time a video chunk is available (the function accept chunks of every size):

detector.detectStream(data);

data must be an 8-bit unsigned ArrayBuffer (eg. Uint8ClampedArray) containing a video chunk as sequence of RGBA image bytes (R, G, B, A, R, G, B, A, R, G, B, A, ....).

Markers Detection in NodeJS

An example of server side detection in NodeJS using stream data from FFMPEG stream is available in the samples/node-js-server folder.

Creation of Custom Dictionaries

Custom dictionaries can be added to the library, editing the AR.DICTIONARIES before the instansiation of the ArUco Detector:

//example of custom dictionary
AR.DICTIONARIES.MyDictionary = {
  nBits: 25,
  tau: 1,
  codeList: ['0x1084210UL', '0x1084217UL', ...]
};

nBits must contain the bit dimension of the markers in your dictionary. tau can contain the hamming distance of the codes in your dictionary (optional). codeList must be an array of strings containing the hexadecimal representation of every marker in your dictionary. The order is important because the position in the array represents the marker id.

The defined dictionary is then available to the detector:

var detector = new AR.Detector({
  dictionaryName: 'MyDictionary'
});

Creation of Marker SVG image

Create a AR.Dictionary object providing as parameter the dictionary name to use (currently available dictionaries are 'ARUCO' and 'ARUCO_MIP_36h12') and then call the function generateSVG providing as parameter the id to generate (that is a number between 0 and the size-1 of the codeList array in the specified dictionary):

var dictionary = new AR.Dictionary('ARUCO');
var SVG = dictionary.generateSVG(0);

A sample page is available to show this feature.

3D Pose Estimation

Create an POS.Posit object:

var posit = new POS.Posit(modelSize, canvas.width);

modelSize argument must be the real marker size (millimeters).

Call pose function:

var pose = posit.pose(corners);

corners must be centered on canvas:

var corners = marker.corners;

for (var i = 0; i < corners.length; ++ i){
  var corner = corners[i];

  corner.x = corner.x - (canvas.width / 2);
  corner.y = (canvas.height / 2) - corner.y;
}

pose result will be a POS.Pose object with two estimated poses (if any):

  • bestError: Error of the best estimated pose.
  • bestRotation: 3x3 rotation matrix of the best estimated pose.
  • bestTranslation: Translation vector of the best estimated pose.
  • alternativeError: Error of the alternative estimated pose.
  • alternativeRotation: 3x3 rotation matrix of the alternative estimated pose.
  • alternativeTranslation: Translation vector of the alternative estimated pose.

Note: POS namespace can be taken from posit1.js or posit2.js.

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