pyfakewebcam Il y a divers projets qui font ça sur GitHub, celui ci à cette qualité de marcher!

• https://codingshiksha.com/python/python-3-pyfakewebcam-script-to-build-fake-webcam-with-custom-background-image-gui-desktop-app-full-project-for-beginners/
• https://github.com/jremmons/pyfakewebcam
• https://github.com/umlaeute/v4l2loopback

• fakewebcam de github.com/sergeLabo

Voir le README ci-dessus.

cam_relay.py

import pyfakewebcam
import cv2
import numpy as np
 
cap = cv2.VideoCapture(0)
camera = pyfakewebcam.FakeWebcam('/dev/video11', 640, 480)
 
while True:
    ret, image = cap.read()
    if ret:
        # # gray = cv2.cvtColor(image, cv2.COLOR_BGR2GRAY)
        camera.schedule_frame(image)
    if cv2.waitKey(1) == 27:
        break

Run the following command to see the output of the fake webcam.
ffplay /dev/video11
or open the camera 11 in vlc

sender_oak_depth.py

import cv2
import depthai as dai
import numpy as np
import pyfakewebcam
 
pipeline = dai.Pipeline()
 
# Define a source - two mono (grayscale) cameras
left = pipeline.createMonoCamera()
left.setResolution(dai.MonoCameraProperties.SensorResolution.THE_400_P)
left.setBoardSocket(dai.CameraBoardSocket.LEFT)
 
right = pipeline.createMonoCamera()
right.setResolution(dai.MonoCameraProperties.SensorResolution.THE_400_P)
right.setBoardSocket(dai.CameraBoardSocket.RIGHT)
 
# Create a node that will produce the depth map
# (using disparity output as it's easier to visualize depth this way)
depth = pipeline.createStereoDepth()
depth.setConfidenceThreshold(200)
 
# Options: MEDIAN_OFF, KERNEL_3x3, KERNEL_5x5, KERNEL_7x7 (default)
median = dai.StereoDepthProperties.MedianFilter.KERNEL_7x7 # For depth filtering
depth.setMedianFilter(median)
 
# Better handling for occlusions:
depth.setLeftRightCheck(False)
# Closer-in minimum depth, disparity range is doubled:
depth.setExtendedDisparity(False)
# Better accuracy for longer distance, fractional disparity 32-levels:
depth.setSubpixel(False)
 
left.out.link(depth.left)
right.out.link(depth.right)
 
# Create output
xout = pipeline.createXLinkOut()
xout.setStreamName("disparity")
depth.disparity.link(xout.input)
 
camera = pyfakewebcam.FakeWebcam('/dev/video11', 640, 480)
 
with dai.Device(pipeline) as device:
    device.startPipeline()
 
    # Output queue will be used to get the disparity frames from the outputs defined above
    q = device.getOutputQueue(name="disparity", maxSize=4, blocking=False)
 
    while True:
        inDepth = q.get()  # blocking call, will wait until a new data has arrived
        frame = inDepth.getFrame()
        frame = cv2.normalize(frame, None, 0, 255, cv2.NORM_MINMAX)
 
        depth_gray_image = cv2.resize(np.asanyarray(frame), (640, 480),
                                interpolation = cv2.INTER_AREA)
        # v4l2 doit être RGB
        color = cv2.cvtColor(depth_gray_image, cv2.COLOR_GRAY2RGB)
        camera.schedule_frame(color)
 
        if cv2.waitKey(1) == 27:
            break

Ouvrir /dev/video11 dans VLC

Pour l'installation, voir https://github.com/sergeLabo/grande_echelle#installation

sender_rs_depth.py

"""
Voir https://github.com/sergeLabo/fakewebcam
 
Suppression du fond, voir
https://github.com/IntelRealSense/librealsense/blob/master/wrappers/python/examples/align-depth2color.py
"""
 
import os
import time
import pyfakewebcam
import cv2
import numpy as np
import pyrealsense2 as rs
 
 
# Le faux device
VIDEO = '/dev/video11'
 
# Avec ou sans slider pour régler CLIPPING_DISTANCE_IN_MILLIMETER
SLIDER = 1
# Réglable avec le slider
# We will be removing the background of objects more than
# CLIPPING_DISTANCE_IN_MILLIMETER away
CLIPPING_DISTANCE_IN_MILLIMETER = 2000
 
 
class MyRealSense:
 
    def __init__(self, video, slider, clip):
        self.video = video
        self.slider = slider
        self.clip = clip
 
        self.width = 1280
        self.height = 720
        self.pose_loop = 1
        self.pipeline = rs.pipeline()
        config = rs.config()
        pipeline_wrapper = rs.pipeline_wrapper(self.pipeline)
        try:
            pipeline_profile = config.resolve(pipeline_wrapper)
        except:
            print('\n\nPas de Capteur Realsense connecté\n\n')
            os._exit(0)
        device = pipeline_profile.get_device()
        config.enable_stream(   rs.stream.color,
                                width=self.width,
                                height=self.height,
                                format=rs.format.bgr8,
                                framerate=30)
        config.enable_stream(   rs.stream.depth,
                                width=self.width,
                                height=self.height,
                                format=rs.format.z16,
                                framerate=30)
 
        profile = self.pipeline.start(config)
        self.align = rs.align(rs.stream.color)
        unaligned_frames = self.pipeline.wait_for_frames()
        frames = self.align.process(unaligned_frames)
 
        # Getting the depth sensor's depth scale (see rs-align example for explanation)
        depth_sensor = profile.get_device().first_depth_sensor()
        self.depth_scale = depth_sensor.get_depth_scale()
        print("Depth Scale is: " , self.depth_scale)
 
        # Affichage de la taille des images
        color_frame = frames.get_color_frame()
        img = np.asanyarray(color_frame.get_data())
        print(f"Taille des images:"
              f"     {img.shape[1]}x{img.shape[0]}")
 
        self.camera = pyfakewebcam.FakeWebcam(VIDEO, 1280, 720)
 
        if self.slider:
            self.create_slider()
 
    def create_slider(self):
        cv2.namedWindow('controls')
        cv2.createTrackbar('background', 'controls', 1000, 8000,
                            self.remove_background_callback)
        cv2.setTrackbarPos('background', 'controls', self.clip)
        cv2.namedWindow('depth', cv2.WND_PROP_FULLSCREEN)
 
    def remove_background_callback(self, value):
        if value != 1000:
            self.clip = int(value)
 
    def run(self):
        """Boucle infinie, quitter avec Echap dans la fenêtre OpenCV"""
 
        while self.pose_loop:
 
            # Get frameset of color and depth
            frames = self.pipeline.wait_for_frames()
            # frames.get_depth_frame() is a 640x360 depth image
 
            # Align the depth frame to color frame
            aligned_frames = self.align.process(frames)
 
            # aligned_depth_frame is a 640x480 depth image
            aligned_depth_frame = aligned_frames.get_depth_frame()
            color_frame = aligned_frames.get_color_frame()
 
            # Validate that both frames are valid
            if not aligned_depth_frame or not color_frame:
                continue
 
            depth_image = np.asanyarray(aligned_depth_frame.get_data())
            color_image = np.asanyarray(color_frame.get_data())
 
            # Remove background - Set pixels further than clipping_distance to grey
            # depth image is 1 channel, color is 3 channels
            depth_image_3d = np.dstack((depth_image, depth_image, depth_image))
            clipping_distance = self.clip / (1000*self.depth_scale)
            bg_removed = np.where((depth_image_3d > clipping_distance) |\
                        (depth_image_3d <= 0), 0, color_image)
 
            depth_colormap = cv2.applyColorMap(cv2.convertScaleAbs(depth_image,
                                                                   alpha=0.03),
                                                                   cv2.COLORMAP_JET)
            images = np.hstack((bg_removed, depth_colormap))
 
            if self.slider:
                cv2.imshow('depth', images)
 
            self.camera.schedule_frame(bg_removed)
 
            if cv2.waitKey(1) == 27:
                break
 
 
 
if __name__ == '__main__':
 
    mrs = MyRealSense(VIDEO, SLIDER, CLIPPING_DISTANCE_IN_MILLIMETER)
    mrs.run()

Ouvrir /dev/video11 dans VLC

ou

receiver.py

import cv2
cap = cv2.VideoCapture(2)
while 1:
    ret, image = cap.read()
    if ret:
        cv2.imshow("frame", image)
    if cv2.waitKey(1) == 27:
        break