3.16. Gen2 彩色相机编码&灰度相机&运行MobilenetSSD模型
这个例子显示了如何配置 depthai 视频编码器在 h. 265格式编码 RGB 摄像机输入在30 FPS 的全高清分辨率,并传输编码的视频通过 XLINK 到主机,保存到磁盘作为视频文件。同时,一个 mobileetv2ssd 网络在右灰度相机的帧上运行
按 Ctrl + c 将停止程序,然后使用 ffmpeg 将其转换为 mp4,使其可播放。请注意,ffmpeg 需要安装并运行才能成功转换为 mp4。
注意,此示例将编码视频保存到主机存储中。因此,如果您让它们一直运行,您可以填满您的主机上的存储空间。
3.16.1. 演示
3.16.2. 设置
请运行以下命令来安装所需的依赖项
Warning
说明:此处安装的是第二代depthai库
python3 -m pip install --extra-index-url https://artifacts.luxonis.com/artifactory/luxonis-python-snapshot-local/ depthai==0.0.2.1+c9a19df719cb668e438d6eafd193cdf60a0d9354 numpy==1.19.5 opencv-python==4.5.1.48
有关更多信息,请参阅 Python API 安装指南
这个示例还需要 mobileenetsdd blob ( mobilenet.blob
文件 )才能工作——您可以从 这里 下载它。
3.16.3. 源代码
可以在 GitHub 上找到。国内用户也可以在 gitee 上找到。
from pathlib import Path
import sys
import cv2
import depthai as dai
import numpy as np
# 首先获取模型
mobilenet_path = str((Path(__file__).parent / Path('models/mobilenet.blob')).resolve().absolute())
if len(sys.argv) > 1:
mobilenet_path = sys.argv[1]
pipeline = dai.Pipeline()
cam = pipeline.createColorCamera()
cam.setBoardSocket(dai.CameraBoardSocket.RGB)
cam.setResolution(dai.ColorCameraProperties.SensorResolution.THE_1080_P)
# 创建视频编码流
videoEncoder = pipeline.createVideoEncoder()
videoEncoder.setDefaultProfilePreset(1920, 1080, 30, dai.VideoEncoderProperties.Profile.H265_MAIN)
cam.video.link(videoEncoder.input)
videoOut = pipeline.createXLinkOut()
videoOut.setStreamName('h265')
videoEncoder.bitstream.link(videoOut.input)
cam_right = pipeline.createMonoCamera()
cam_right.setBoardSocket(dai.CameraBoardSocket.RIGHT)
cam_right.setResolution(dai.MonoCameraProperties.SensorResolution.THE_720_P)
detection_nn = pipeline.createNeuralNetwork()
detection_nn.setBlobPath(mobilenet_path)
manip = pipeline.createImageManip()
manip.initialConfig.setResize(300, 300)
# NN模型需要BGR输入。默认情况下,ImageManip输出类型将与输入相同(在这种情况下为灰色)
manip.initialConfig.setFrameType(dai.RawImgFrame.Type.BGR888p)
cam_right.out.link(manip.inputImage)
manip.out.link(detection_nn.input)
xout_right = pipeline.createXLinkOut()
xout_right.setStreamName("right")
cam_right.out.link(xout_right.input)
xout_manip = pipeline.createXLinkOut()
xout_manip.setStreamName("manip")
manip.out.link(xout_manip.input)
xout_nn = pipeline.createXLinkOut()
xout_nn.setStreamName("nn")
detection_nn.out.link(xout_nn.input)
# MobilenetSSD标签文本
texts = ["background", "aeroplane", "bicycle", "bird", "boat", "bottle", "bus", "car", "cat", "chair", "cow",
"diningtable", "dog", "horse", "motorbike", "person", "pottedplant", "sheep", "sofa", "train", "tvmonitor"]
# 管道已定义,现在设备已连接到管道
with dai.Device(pipeline) as device:
# 启动管道
device.startPipeline()
queue_size = 8
q_right = device.getOutputQueue("right", queue_size)
q_manip = device.getOutputQueue("manip", queue_size)
q_nn = device.getOutputQueue("nn", queue_size)
q_rgb_enc = device.getOutputQueue('h265', maxSize=30, blocking=True)
frame = None
frame_manip = None
bboxes = []
confidences = []
labels = []
def frame_norm(frame, bbox):
norm_vals = np.full(len(bbox), frame.shape[0])
norm_vals[::2] = frame.shape[1]
return (np.clip(np.array(bbox), 0, 1) * norm_vals).astype(int)
videoFile = open('video.h265','wb')
while True:
in_right = q_right.tryGet()
in_manip = q_manip.tryGet()
in_nn = q_nn.tryGet()
while q_rgb_enc.has():
q_rgb_enc.get().getData().tofile(videoFile)
if in_right is not None:
shape = (in_right.getHeight(), in_right.getWidth())
frame = in_right.getData().reshape(shape).astype(np.uint8)
frame = np.ascontiguousarray(frame)
if in_manip is not None:
shape = (3, in_manip.getHeight(), in_manip.getWidth())
frame_manip = in_manip.getData().reshape(shape).transpose(1, 2, 0).astype(np.uint8)
frame_manip = np.ascontiguousarray(frame_manip)
if in_nn is not None:
bboxes = np.array(in_nn.getFirstLayerFp16())
bboxes = bboxes.reshape((bboxes.size // 7, 7))
bboxes = bboxes[bboxes[:, 2] > 0.5]
# 剪切bbox和标签
labels = bboxes[:, 1].astype(int)
confidences = bboxes[:, 2]
bboxes = bboxes[:, 3:7]
if frame is not None:
for raw_bbox, label, conf in zip(bboxes, labels, confidences):
bbox = frame_norm(frame, raw_bbox)
cv2.rectangle(frame, (bbox[0], bbox[1]), (bbox[2], bbox[3]), (255, 0, 0), 2)
cv2.putText(frame, texts[label], (bbox[0] + 10, bbox[1] + 20), cv2.FONT_HERSHEY_TRIPLEX, 0.5, 255)
cv2.putText(frame, f"{int(conf * 100)}%", (bbox[0] + 10, bbox[1] + 40), cv2.FONT_HERSHEY_TRIPLEX, 0.5, 255)
cv2.imshow("right", frame)
if frame_manip is not None:
for raw_bbox, label, conf in zip(bboxes, labels, confidences):
bbox = frame_norm(frame_manip, raw_bbox)
cv2.rectangle(frame_manip, (bbox[0], bbox[1]), (bbox[2], bbox[3]), (255, 0, 0), 2)
cv2.putText(frame_manip, texts[label], (bbox[0] + 10, bbox[1] + 20), cv2.FONT_HERSHEY_TRIPLEX, 0.5, 255)
cv2.putText(frame_manip, f"{int(conf * 100)}%", (bbox[0] + 10, bbox[1] + 40), cv2.FONT_HERSHEY_TRIPLEX, 0.5, 255)
cv2.imshow("manip", frame_manip)
if cv2.waitKey(1) == ord('q'):
break
videoFile.close()
print("To view the encoded data, convert the stream file (.h265) into a video file (.mp4) using a command below:")
print("ffmpeg -framerate 30 -i video.h265 -c copy video.mp4")
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