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sources/tech/20200630 Using TensorFlow.js and Node-RED with image recognition applications.md
114 lines
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114 lines
7.8 KiB
Markdown
[#]: collector: (lujun9972)
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[#]: subject: (Using TensorFlow.js and Node-RED with image recognition applications)
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[#]: via: (https://www.linux.com/news/using-tensorflow-js-and-node-red-with-image-recognition-applications/)
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[#]: author: (Linux.com Editorial Staff https://www.linux.com/author/kazuhito-yokoi/)
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Using TensorFlow.js and Node-RED with image recognition applications
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======
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_This Linux Foundation Platinum Sponsor-Contributed article from [Hitachi][1] is about how to use **TensorFlow.js** and **Node-RED** for use with image recognition applications._
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### Using TensorFlow.js and Node-RED
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TensorFlow.js is a JavaScript implementation of the [TensorFlow open source machine learning platform][2]. By using **TensorFlow.js**, learning and inference processing can be executed in real-time on the browser or the server-side with Node.js. [Node-RED][3] is a visual programming tool mainly developed for IoT applications.
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According to [a recent InfoQ article on 2020 JavaScript web development trends][4], **TensorFlow.js** is classified as “Early Majority”, and **Node-RED** is classified as “Early Adopters” in their adoption cycles. And they are becoming increasingly popular with open source software developers.
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![Image: InfoQ][5]
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In this article, we’ll take a look at what you can do with these two trending open source software tools in combination.
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### Creating a sample image recognition flow with Node-RED
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Our objective will be to create a flow within **Node-RED** to recognize an object in an image, as depicted in the screenshot below.
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![Flow to be created in Node-RED][6]
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This flow can be observed after you upload a file from a browser using the yellow node component. The bottom left of the user interface displays the uploaded image in the “Original image” node. In the orange “Image recognition” node, the **TensorFlow.js** trained model is used to run Analyze for what is in the uploaded image (an aircraft). Finally, we will use the green “Output result” node in the upper right corner to output what is seen in the debug tab on the right. Additionally, an image annotated with an orange square under the [Image with annotation] node is displayed, and it’s easy to see what part of the image has been recognized.
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In the following sections, we will explain the steps for creating this flow. For this demo, Node-RED can run in the local environment (in this case, a Raspberry Pi) and also in a cloud environment — it will work regardless of platform choice. For our tests, Google Chrome was chosen for use with the Node-RED web user interface.
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### Installing a TensorFlow.js node
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The **Node-RED** flow library has several TensorFlow.js-enabled nodes. One of these is [node-red-contrib-tensorflow][7], which contains the trained models.
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We’ll begin with installing the **TensorFlow.js** node in **Node-RED**. To install the node, go to the top-right menu of the flow editor. Click **“Manage Palette”** -> Go to **“Palette”** tab -> Select **“Install”** tab. After that, enter “**node-red-contrib-tensorflow”** in the search keyword field.
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![Installing a TensorFlow.js node][8]
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As shown in the image above, the TensorFlow.js node to be used is displayed in the search results. Click the “install” button to install the TensorFlow.js node. Once the installation is complete, orange **TensorFlow.js** nodes will appear in the Analysis category of the left side palette.
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![Analysis palette][9]
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Each **TensorFlow.js** node is described in the following table. These are all image recognition nodes, but they can also generate image data with annotation and perform other functions like image recognition, or offline, which is necessary for edge analytics.
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**#** | **Name** | **Description** | **Annotated Image** | **Offline Use**
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1 | cocossd | A node that returns the name of the object in the image | YES | MAY
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2 | handpose | A node that estimates the positions of fingers and joints from a hand image | NONE | CAN’T
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3 | mobilenet | A node that returns the name of the object in the image | NONE | MAY
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4 | posenet | A node that estimates the positions of arms, head, and legs from the image of a person | YES | MAY
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In addition, the following nodes, which are required to work with image data in Node-RED, should be installed in the same way.
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– **node-red-contrib-browser-utils**: A node that uploads image files and audio files from the flow editor
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– **node-red-contrib-image-output**: A node that displays an image on the flow editor
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After installing **node-red-contrib-browser-utils**, you should see the file-inject node, microphone node, and camera node in the input category. Also, once you have installed **node-red-contrib-image-output**, you should see the image node in the output category.
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### Creating a flow
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Now that we have the necessary nodes let’s create the flow.
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From the palette on the right, place a yellow file inject node, an orange **cocossd** node, and a green debug node (which will be renamed to **msg.payload** when placed in the workspace) and connect the ports of each node with “wires”.
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To check the image data flowing through the wire, place two image nodes (named image preview when placed on the workspace) under the flow. To output the image data from the file inject node and debug node respectively, connect to the output port, as shown in the illustration.
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![Completed Node-RED flow][10]
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Only the image preview node on the right side specifies the image data variables to be displayed, so it is necessary to change the node settings. To change the settings, double-click the image preview node to open the node properties screen. On the node property screen, the image data stored in **msg.payload** is displayed by default. By changing this to **msg.annotatedInput** as shown in the screenshot below, the image preview node will display the annotated image.
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![Image properties][11]
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Give each node an appropriate name, press the red deploy button on the upper right, and then click the button on the left side of the file inject node to upload the sample image file of the airport from your PC.
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![The recognized object in Node-RED][6]
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As shown, an image with orange annotation on the aircraft is displayed under the “Image with annotation” node. Also, you can see that the debug tab on the right side correctly displayed “airplane”.
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Feel free to try this with images you have at your disposal and experiment with them to see if they can be recognized correctly.
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*About the author: Kazuhito Yokoi is an Engineer at Hitachi’s OSS Solution Center, located in Yokohama, Japan. *
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--------------------------------------------------------------------------------
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via: https://www.linux.com/news/using-tensorflow-js-and-node-red-with-image-recognition-applications/
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作者:[Linux.com Editorial Staff][a]
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选题:[lujun9972][b]
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译者:[译者ID](https://github.com/译者ID)
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校对:[校对者ID](https://github.com/校对者ID)
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本文由 [LCTT](https://github.com/LCTT/TranslateProject) 原创编译,[Linux中国](https://linux.cn/) 荣誉推出
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[a]: https://www.linux.com/author/kazuhito-yokoi/
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[b]: https://github.com/lujun9972
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[1]: http://www.hitachi.co.jp/
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[2]: https://www.tensorflow.org/overview
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[3]: https://nodered.org/
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[4]: https://www.infoq.com/articles/javascript-web-development-trends-2020/
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[5]: https://www.linux.com/wp-content/uploads/2020/06/image1_infoq.jpg
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[6]: https://www.linux.com/wp-content/uploads/2020/06/image2_flow.png
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[7]: https://flows.nodered.org/node/node-red-contrib-tensorflow
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[8]: https://www.linux.com/wp-content/uploads/2020/06/image3_installation.png
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[9]: https://www.linux.com/wp-content/uploads/2020/06/image4_palette.png
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[10]: https://www.linux.com/wp-content/uploads/2020/06/image5_flow.png
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[11]: https://www.linux.com/wp-content/uploads/2020/06/image6_property.png
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