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NVR with realtime local object detection for IP cameras

ai camera google-coral home-assistant home-automation homeautomation mqtt nvr object-detection realtime rtsp tensorflow

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README.md

Realtime Object Detection for RTSP Cameras

This results in a MJPEG stream with objects identified that has a lower latency than directly viewing the RTSP feed with VLC.

Prioritizes realtime processing over frames per second. Dropping frames is fine.
OpenCV runs in a separate process so it can grab frames as quickly as possible to ensure there aren't old frames in the buffer
Object detection with Tensorflow runs in a separate process and ignores frames that are more than 0.5 seconds old
Uses shared memory arrays for handing frames between processes
Provides a url for viewing the video feed at a hard coded ~5FPS as an mjpeg stream
Frames are only encoded into mjpeg stream when it is being viewed
A process is created per detection region

Getting Started

Build the container with

docker build -t realtime-od .

Download a model from the zoo.

Download the cooresponding label map from here.

Run the container with

docker run -it --rm \
-v <path_to_frozen_detection_graph.pb>:/frozen_inference_graph.pb:ro \
-v <path_to_labelmap.pbtext>:/label_map.pbtext:ro \
-p 5000:5000 \
-e RTSP_URL='<rtsp_url>' \
-e REGIONS='<box_size_1>,<x_offset_1>,<y_offset_1>:<box_size_2>,<x_offset_2>,<y_offset_2>' \
realtime-od:latest

Access the mjpeg stream at http://localhost:5000

Tips

Lower the framerate of the RTSP feed on the camera to what you want to reduce the CPU usage for capturing the feed
Use SSDLite models

Future improvements

Look for a subset of object types
Try and simplify the tensorflow model to just look for the objects we care about
MQTT messages when detected objects change
Implement basic motion detection with opencv and only look for objects in the regions with detected motion
Dynamic changes to processing speed, ie. only process 1FPS unless motion detected
Parallel processing to increase FPS
Look into GPU accelerated decoding of RTSP stream
Send video over a socket and use JSMPEG

Building Tensorflow from source for CPU optimizations

https://www.tensorflow.org/install/source#docker_linux_builds used tensorflow/tensorflow:1.12.0-devel-py3

Optimizing the graph (cant say I saw much difference in CPU usage)

https://github.com/tensorflow/tensorflow/blob/master/tensorflow/tools/graph_transforms/README.md#optimizing-for-deployment

docker run -it -v ${PWD}:/lab -v ${PWD}/../back_camera_model/models/ssd_mobilenet_v2_coco_2018_03_29/frozen_inference_graph.pb:/frozen_inference_graph.pb:ro tensorflow/tensorflow:1.12.0-devel-py3 bash

bazel build tensorflow/tools/graph_transforms:transform_graph

bazel-bin/tensorflow/tools/graph_transforms/transform_graph \
--in_graph=/frozen_inference_graph.pb \
--out_graph=/lab/optimized_inception_graph.pb \
--inputs='image_tensor' \
--outputs='num_detections,detection_scores,detection_boxes,detection_classes' \
--transforms='
  strip_unused_nodes(type=float, shape="1,300,300,3")
  remove_nodes(op=Identity, op=CheckNumerics)
  fold_constants(ignore_errors=true)
  fold_batch_norms
  fold_old_batch_norms'