Skip to content

Latest commit

 

History

History
83 lines (61 loc) · 2.86 KB

readme.md

File metadata and controls

83 lines (61 loc) · 2.86 KB

rs-face-vino Sample

Overview

This example demonstrates OpenVINO™ toolkit integration with facial detection, using depth information to approximate distance.

screenshot

Requirements

A camera with both depth and RGB sensors is required.

This sample makes use of OpenCV. You can use the OpenCV that is packaged with OpenVINO by pointing OpenCV_DIR to ${INTEL_OPENVINO_DIR}/opencv/cmake.

Implementation

A helper namespace openvino_helpers is used, with a helper class object_detection encapsulating much of the OpenVINO details:

    openvino_helpers::object_detection faceDetector(
        "face-detection-adas-0001.xml",
        0.5     // Probability threshold -- anything with less confidence will be thrown out
    );

There are two trained model Intermediate Representation files (face-detection-adas-0001.xml and .bin) that need to be loaded. Pointing to the .xml is enough. These are automatically installed into your build's wrappers/openvino/face directory.

The object_detection class checks that the model includes the required input/output layers, so feel free to substitute different models.

Each detection has a confidence score. You can specify how confident you want the results to be.

Asynchronous detection takes place by queueing a frame and only processing its results when the next frame is available:

    // Wait for the results of the previous frame we enqueued: we're going to process these
    faceDetector.wait();
    auto results = faceDetector.fetch_results();

    // Enqueue the current frame so we'd get the results when the next frame comes along!
    faceDetector.enqueue( image );
    faceDetector.submit_request();

    // Process the results...

Detected faces are placed into a container and assigned IDs. Some basic effort is made to keep the creation of new faces to a minimum: previous faces are compared with new detections to see if the new are simply new positions for the old. An "intersection over union" (IoU) quotient is calculated and, if over a threshold, an existing face is moved rather than a new face created.

    rect = rect & cv::Rect( 0, 0, image.cols, image.rows );
    auto face_ptr = openvino_helpers::find_object( rect, prev_faces );
    if( !face_ptr )
        // New face
        face_ptr = std::make_shared< openvino_helpers::detected_object >( id++, rect );
    else
        // Existing face; just update its parameters
        face_ptr->move( rect );

Depth calculation

We make sure to align the depth and color frames, such that the center of each face's bounding box in the color frame corresponds to the same pixel in the depth. Then it is easy to simply get the depth:

    auto center_x = r.x + r.width / 2;
    auto center_y = r.y + r.height / 2;
    auto d = depth_frame.get_distance( center_x, center_y );