# 检测对象 在为某个模型运行 pipeline 命令之前,请遵循所需的[先决条件](https://docs.qualcomm.com/doc/80-70020-15BY/topic/ai-hub-qualcomm-im-sdk.html#prerequisites)。 运行以下命令以确保您的结果显示在连接的显示器上。 export XDG_RUNTIME_DIR=/dev/socket/weston && export WAYLAND_DISPLAY=wayland-1 Copy to clipboard ## Yolo-V7 YoloV7 是一种机器学习模型,可预测图像中的边界框和对象类别。 此模型使用来自 COCO 数据集的样本并在训练后量化为 int8。 AI Hub 模型基于 [Yolo-v7](https://github.com/WongKinYiu/yolov7/) 的实现。 - 型号:[yolov7](https://github.com/quic/ai-hub-models/tree/main/qai_hub_models/models/yolov7) - 标签:[coco_labels.txt](https://github.com/quic/ai-hub-models/blob/main/qai_hub_models/labels/coco_labels.txt) gst-launch-1.0 -e --gst-debug=2 \ filesrc location=/etc/media/video.mp4 ! qtdemux ! queue ! h264parse ! v4l2h264dec capture-io-mode=4 output-io-mode=4 ! video/x-raw,format=NV12 ! queue ! tee name=split \ split. ! queue ! qtivcomposer name=mixer ! queue ! waylandsink fullscreen=true \ split. ! queue ! qtimlvconverter ! queue ! qtimltflite delegate=external external-delegate-path=libQnnTFLiteDelegate.so \ external-delegate-options="QNNExternalDelegate,backend_type=htp;" model=/etc/models/Yolo-v7-Quantized.tflite ! queue ! \ qtimlvdetection threshold=50.0 results=10 module=yolov8 labels=/etc/labels/coco_labels.txt constants="YOLOv7,q-offsets=<35.0, 0.0, 0.0>,q-scales=<3.4220554, 0.0023370725102722645, 1.0>;" ! \ video/x-raw,format=BGRA,width=640,height=360 ! queue ! mixer. Copy to clipboard ## Yolov8-Detection Ultralytics Yolov8 是一种机器学习模型,可预测图像中的边界框和对象类别。 此模型使用来自 COCO 数据集的样本并在训练后量化为 int8。 AI Hub 模型基于 [YOLOv8-Detection-Quantized 的实现](https://github.com/ultralytics/ultralytics/tree/main/ultralytics/models/yolo/detect)。 - 模型:[YOLOv8 检测](https://github.com/quic/ai-hub-models/tree/main/qai_hub_models/models/yolov8_det) - 标签:[coco_labels.txt](https://github.com/quic/ai-hub-models/blob/main/qai_hub_models/labels/coco_labels.txt) gst-launch-1.0 -e --gst-debug=2 \ filesrc location=/etc/media/video.mp4 ! qtdemux ! queue ! h264parse ! v4l2h264dec capture-io-mode=4 output-io-mode=4 ! video/x-raw,format=NV12 ! queue ! tee name=split \ split. ! queue ! qtivcomposer name=mixer ! queue ! waylandsink fullscreen=true \ split. ! queue ! qtimlvconverter ! queue ! qtimltflite delegate=external external-delegate-path=libQnnTFLiteDelegate.so \ external-delegate-options="QNNExternalDelegate,backend_type=htp,htp_device_id=(string)0,htp_performance_mode=(string)2,htp_precision=(string)1;" model=/etc/models/YOLOv8-Detection-Quantized.tflite ! queue ! \ qtimlvdetection threshold=50.0 results=10 module=yolov8 labels=/etc/labels/coco_labels.txt constants="YOLOv8,q-offsets=<21.0, 0.0, 0.0>,q-scales=<3.093529462814331, 0.00390625, 1.0>;" ! \ video/x-raw,format=BGRA,width=640,height=360 ! queue ! mixer. Copy to clipboard Note 在上述命令中的 `external-delegate-options` 中添加 `htp_device_id=(string)0,htp_performance_mode=(string)2,htp_precision=(string)1` 允许模型在 HTP 上以高性能模式运行。 可以用相同方式为所有其他pipeline启用高性能模式。 Last Published: Oct 12, 2025 [Previous Topic 对图像进行分类](https://docs.qualcomm.com/bundle/publicresource/80-70020-15BY/topics/image-classification.md) [Next Topic 对视频帧应用语义分割](https://docs.qualcomm.com/bundle/publicresource/80-70020-15BY/topics/semantic-segmentation.md)