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@ -6,9 +6,16 @@ import events.events_pb2
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import depthai as dai
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import depthai as dai
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import cv2
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import cv2
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import numpy as np
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logger = logging.getLogger(__name__)
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logger = logging.getLogger(__name__)
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# Closer-in minimum depth, disparity range is doubled (from 95 to 190):
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extended_disparity = False
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# Better accuracy for longer distance, fractional disparity 32-levels:
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subpixel = True
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# Better handling for occlusions:
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lr_check = True
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class FramePublisher:
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class FramePublisher:
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def __init__(self, mqtt_client: mqtt.Client, frame_topic: str, img_width: int, img_height: int):
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def __init__(self, mqtt_client: mqtt.Client, frame_topic: str, img_width: int, img_height: int):
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@ -16,6 +23,7 @@ class FramePublisher:
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self._frame_topic = frame_topic
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self._frame_topic = frame_topic
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self._img_width = img_width
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self._img_width = img_width
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self._img_height = img_height
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self._img_height = img_height
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self._depth = None
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self._pipeline = self._configure_pipeline()
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self._pipeline = self._configure_pipeline()
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def _configure_pipeline(self) -> dai.Pipeline:
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def _configure_pipeline(self) -> dai.Pipeline:
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@ -27,6 +35,45 @@ class FramePublisher:
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xout_rgb.setStreamName("rgb")
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xout_rgb.setStreamName("rgb")
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monoLeft = pipeline.create(dai.node.MonoCamera)
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monoRight = pipeline.create(dai.node.MonoCamera)
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depth = pipeline.create(dai.node.StereoDepth)
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xout = pipeline.create(dai.node.XLinkOut)
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self._depth = depth
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xout.setStreamName("disparity")
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# Properties
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monoLeft.setResolution(dai.MonoCameraProperties.SensorResolution.THE_400_P)
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monoLeft.setBoardSocket(dai.CameraBoardSocket.LEFT)
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monoRight.setResolution(dai.MonoCameraProperties.SensorResolution.THE_400_P)
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monoRight.setBoardSocket(dai.CameraBoardSocket.RIGHT)
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# Create a node that will produce the depth map (using disparity output as it's easier to visualize depth this way)
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depth.setDefaultProfilePreset(dai.node.StereoDepth.PresetMode.HIGH_DENSITY)
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# Options: MEDIAN_OFF, KERNEL_3x3, KERNEL_5x5, KERNEL_7x7 (default)
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depth.initialConfig.setMedianFilter(dai.MedianFilter.KERNEL_7x7)
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depth.setLeftRightCheck(lr_check)
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depth.setExtendedDisparity(extended_disparity)
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depth.setSubpixel(subpixel)
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config = depth.initialConfig.get()
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config.postProcessing.speckleFilter.enable = True
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config.postProcessing.speckleFilter.speckleRange = 50
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config.postProcessing.temporalFilter.enable = False
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config.postProcessing.spatialFilter.enable = False
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config.postProcessing.spatialFilter.holeFillingRadius = 2
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config.postProcessing.spatialFilter.numIterations = 1
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#config.postProcessing.thresholdFilter.minRange = 400
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#config.postProcessing.thresholdFilter.maxRange = 15000
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config.postProcessing.decimationFilter.decimationFactor = 2
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depth.initialConfig.set(config)
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# Linking
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monoLeft.out.link(depth.left)
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monoRight.out.link(depth.right)
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depth.disparity.link(xout.input)
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# Properties
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# Properties
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cam_rgb.setBoardSocket(dai.CameraBoardSocket.RGB)
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cam_rgb.setBoardSocket(dai.CameraBoardSocket.RGB)
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cam_rgb.setPreviewSize(width=self._img_width, height=self._img_height)
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cam_rgb.setPreviewSize(width=self._img_width, height=self._img_height)
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@ -53,12 +100,22 @@ class FramePublisher:
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queue_size = 4
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queue_size = 4
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q_rgb = device.getOutputQueue("rgb", maxSize=queue_size, blocking=False)
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q_rgb = device.getOutputQueue("rgb", maxSize=queue_size, blocking=False)
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# Output queue will be used to get the disparity frames from the outputs defined above
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q_disparity = device.getOutputQueue(name="disparity", maxSize=4, blocking=False)
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while True:
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while True:
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try:
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try:
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logger.debug("wait for new frame")
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logger.debug("wait for new frame")
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inRgb = q_rgb.get() # blocking call, will wait until a new data has arrived
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inRgb = q_rgb.get() # blocking call, will wait until a new data has arrived
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inDisparity = q_disparity.get()
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# im_resize = inRgb.getCvFrame()
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im_resize = inDisparity.getCvFrame()
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im_resize = inRgb.getCvFrame()
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# Normalization for better visualization
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im_resize = (im_resize * (255 / self._depth.initialConfig.getMaxDisparity())).astype(np.uint8)
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# Available color maps: https://docs.opencv.org/3.4/d3/d50/group__imgproc__colormap.html
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# im_resize = cv2.applyColorMap(im_resize, cv2.COLORMAP_JET)
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is_success, im_buf_arr = cv2.imencode(".jpg", im_resize)
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is_success, im_buf_arr = cv2.imencode(".jpg", im_resize)
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byte_im = im_buf_arr.tobytes()
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byte_im = im_buf_arr.tobytes()
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