--- layout: forward target: https://developers.google.com/mediapipe/solutions/vision/object_detector title: Object Detection parent: Solutions nav_order: 9 --- # MediaPipe Object Detection {: .no_toc }
Table of contents {: .text-delta } 1. TOC {:toc}
--- **Attention:** *Thank you for your interest in MediaPipe Solutions. As of March 1, 2023, this solution was upgraded to a new MediaPipe Solution. For more information, see the [MediaPipe Solutions](https://developers.google.com/mediapipe/solutions/vision/object_detector) site.* ---- ### TensorFlow model The model is trained on [MSCOCO 2014](http://cocodataset.org) dataset using [TensorFlow Object Detection API](https://github.com/tensorflow/models/tree/master/research/object_detection). It is a MobileNetV2-based SSD model with 0.5 depth multiplier. Detailed training configuration is in the provided `pipeline.config`. The model is a relatively compact model which has `0.171 mAP` to achieve real-time performance on mobile devices. You can compare it with other models from the [TensorFlow detection model zoo](https://github.com/tensorflow/models/blob/master/research/object_detection/g3doc/tf1_detection_zoo.md). ### TFLite model The TFLite model is converted from the TensorFlow above. The steps needed to convert the model are similar to [this tutorial](https://medium.com/tensorflow/training-and-serving-a-realtime-mobile-object-detector-in-30-minutes-with-cloud-tpus-b78971cf1193) with minor modifications. Assuming now we have a trained TensorFlow model which includes the checkpoint files and the training configuration file, for example the files provided in this repo: * `model.ckpt.index` * `model.ckpt.meta` * `model.ckpt.data-00000-of-00001` * `pipeline.config` Make sure you have installed these [python libraries](https://github.com/tensorflow/models/blob/master/research/object_detection/g3doc/tf1.md). Then to get the frozen graph, run the `export_tflite_ssd_graph.py` script from the `models/research` directory with this command: ```bash $ PATH_TO_MODEL=path/to/the/model $ bazel run object_detection:export_tflite_ssd_graph -- \ --pipeline_config_path ${PATH_TO_MODEL}/pipeline.config \ --trained_checkpoint_prefix ${PATH_TO_MODEL}/model.ckpt \ --output_directory ${PATH_TO_MODEL} \ --add_postprocessing_op=False ``` The exported model contains two files: * `tflite_graph.pb` * `tflite_graph.pbtxt` The difference between this step and the one in [the tutorial](https://medium.com/tensorflow/training-and-serving-a-realtime-mobile-object-detector-in-30-minutes-with-cloud-tpus-b78971cf1193) is that we set `add_postprocessing_op` to False. In MediaPipe, we have provided all the calculators needed for post-processing such that we can exclude the custom TFLite ops for post-processing in the original graph, e.g., non-maximum suppression. This enables the flexibility to integrate with different post-processing algorithms and implementations. Optional: You can install and use the [graph tool](https://github.com/tensorflow/tensorflow/tree/master/tensorflow/tools/graph_transforms) to inspect the input/output of the exported model: ```bash $ bazel run graph_transforms:summarize_graph -- \ --in_graph=${PATH_TO_MODEL}/tflite_graph.pb ``` You should be able to see the input image size of the model is 320x320 and the outputs of the model are: * `raw_outputs/box_encodings` * `raw_outputs/class_predictions` The last step is to convert the model to TFLite. You can look at [this guide](https://github.com/tensorflow/tensorflow/blob/master/tensorflow/lite/g3doc/r1/convert/cmdline_examples.md) for more detail. For this example, you just need to run: ```bash $ tflite_convert -- \ --graph_def_file=${PATH_TO_MODEL}/tflite_graph.pb \ --output_file=${PATH_TO_MODEL}/model.tflite \ --input_format=TENSORFLOW_GRAPHDEF \ --output_format=TFLITE \ --inference_type=FLOAT \ --input_shapes=1,320,320,3 \ --input_arrays=normalized_input_image_tensor \ --output_arrays=raw_outputs/box_encodings,raw_outputs/class_predictions ``` Now you have the TFLite model `model.tflite` ready to use with MediaPipe Object Detection graphs. Please see the examples for more detail.