- 1 Applications
- 2 Inference Engines
Advantech FaceView application powered by CyberLink's FaceMe®, an industry-leading facial recognition engine, Advantech’s FaceView application provides precise and scalable real-time facial recognition for various AIoT applications in the retail, hospitality, and public safety fields.
- nVidia TX2: EPC-R7000
0. Before we start for FaceView, please make sure SDK components are installed well on your TX2 device.
1. Get the program file by contact with Advantech, e.g. FaceView_1.0.2.0522_aarch64.zip
2. Put the ZIP file into your device and unzip it.
$ unzip FaceView_1.0.2.0522_aarch64.zip Archive: FaceView_1.0.2.0522_aarch64.zip inflating: FaceView_1.0.2.0522_aarch64.deb inflating: install_faceview_dep.sh
3. Run the script to install dependency packages.
$ chmod +x install_faceview_dep.sh $ ./install_faceview_dep.sh
4. To install FaceView DEB, you can type the commands, or double-click DEB file.
$ sudo dpkg -i FaceView_1.0.2.0522_aarch64.deb
5. Once it's done, you can find the
FaceView application in
We support two kinds of camera on EPC-R7000. One is USB webcam and the other is IP camera.
It's easy to setup webcam by connecting USB with TX2 device.
The two camera products below are verified, but it's OK to use other products which support 1920x1080 or 1280x720 resolution.
- Microsoft LifeCam HD-3000
- Logitech BRIO V-U0040
EPC-R7000 supports PoE function, so you can run FaceView with IP camera for more flexible camera configurations.
The IP camera below is verified. We will take it as an example to set up.
To configure IP camera for FaceView, we have to route RTSP streaming to video device.
1. Connect IP camera with TX2 device via Ethernet cable.
2. Assign corresponding IP address for the PoE port, e.g. 169.254.111.1/16.
3. Install V4L2Loopback utility & drivers.
$ sudo apt-get install v4l2loopback-utils
4. Route RTSP streaming to video device.
$ sudo modprobe v4l2loopback $ export RTSP_PATH="rtsp://viewer:email@example.com:5554/live.sdp" $ gst-launch-1.0 rtspsrc location="$RTSP_PATH" latency=300 ! rtph264depay ! h264parse ! omxh264dec ! videoconvert ! tee ! v4l2sink device=/dev/video0
To execute FaceView application, navigate to
/usr/local/FaceView/ folder and double-click
FaceView icon, or run the application by command mode.
$ cd /usr/local/FaceView/ $ ./FaceView
Then, you will be asked to input license key. Note: Please make sure your network connection is OK to activate the license successfully.
If the key is valid, you are able to see camera preview screen from the application.
For details of operations, please refer to the FaceView user guide.
Set Up Build Environment
To develop QT application with FaceMe SDK, you have to install the packages listed below.
1. Install FaceMe SDK, e.g.FaceMe_SDK_Ubuntu18_ARM64_3.18.0.run
$ chmod +x FaceMe_SDK_Ubuntu18_ARM64_3.18.0.run $ sudo ./FaceMe_SDK_Ubuntu18_ARM64_3.18.0.run ... What path do you want to install? (Press ENTER to use default)[/home/advrisc] Which detection models do you want to install? ML, and (Press ENTER to use default, DNN DNN-X)[DNN DNN-X] Which extraction models do you want to install? (Press ENTER to use default, H1 H2 H3 VH UH UH3)[H1 H3 VH UH3] Do you want to install Demo System? (Press ENTER to use default, yes(y)/no(n))[yes] Do you want to install Sample code? (Press ENTER to use default, yes(y)/no(n))[yes] Install SDK Path: /home/advrisc/FaceMeSDK Install Detection Model: DNN DNN-X Install Extraction Model: H1 H3 VH UH3 Install GPU support: no Install DemoSystem: yes Install Sample Code: yes Are you sure? (Press ENTER to use default, yes(y)/no(n))[yes]
2. Install pre-built Qt 5.14.2 binaries
$ tar zxvf Qt-5.14.2-Ubuntu18.04-ARM64.tar.gz $ cd Qt-5.14.2-U18.04-ARM64 $ sudo cp -a * / $ sudo vim ~/.profile PATH="/usr/local/Qt-5.14.2/bin:$PATH" $ source ~/.profile
3. Install QT creator
$ sudo apt-get install qtcreator
4. Install pre-built OpenCV 3.4.2 with CUDA & Jpeg1.5.3 support
$ tar zxvf OpenCV-3.4.2-aarch64-U18.04-JPEG1.5.3.tar.gz $ cd OpenCV-3.4.2-aarch64 $ sudo cp -a * /usr/local/
- nVidia TX2: EPC-R7000