Configuring a Neurocounter

To configure a Neurocounter, do the following:

1. To record mask (highlighting of recognized objects) to the archive, select Yes for the corresponding parameter (1).
   
2. If the camera supports multistreaming, select the stream for which detection is needed (2). 
   
3. Select a processing resource for decoding video streams (3). When you select a GPU, a stand-alone graphics card takes priority (when decoding with NVIDIA NVDEC chips). If there is no appropriate GPU, the decoding will use the Intel Quick Sync Video technology. Otherwise, CPU resources will be used for decoding.

4. Set the frame rate value for the detection tool to process per second (4). This value should be in the range [0; 100].
   

   Note

   The default values (3 output frames and 1 FPS) indicate that Neurocounter will analyze one frame every second. If Neurocounter detects the specified number of objects (or more) on 3 frames, then it triggers.

5. Set the recognition threshold for objects in percent (5). If the recognition probability falls below the specified value, the data will be ignored. The higher the value, the higher the recognition accuracy, but some triggers may not be considered. This value should be in the range [0.05; 100].

6. Select the processor for the neural network—CPU, one of NVIDIA GPUs or one of Intel GPUs (6, see Hardware requirements for neural analytics operation, General Information on Configuring Detection).
   

   Attention!

   • If you specify other processing resource than the CPU, this device will carry the most of computing load. However, the CPU will also be used to run Neurocounter.
   • It may take several minutes to launch the algorithm on NVIDIA GPU after you apply the settings. You can use caching to speed up future launches (see Configuring the acceleration of GPU-based neuroanalytics).

7. Set the triggering condition for Neurocounter:

   1. In the Number of alarm objects field (7), set the threshold value for the number of objects in the frame. This value should be in the range [0; 100].

   2. In the Trigger upon count field (9), select when you want to generate a trigger—when the number of objects in the detection area is:

      1. Greater than or equal to threshold value.

      2. Less than or equal to threshold value.
         

         Note

         Neurocounter will generate a trigger from the specified threshold (9).

8. In the Object type field (8), select the object for counting:
   1. Human.
   2. Human (top view).
   3. Vehicle.
   4. Human and Vehicle (Nano)—low accuracy, low processor load.
   5. Human and Vehicle (Medium)—medium accuracy, medium processor load.

   6. Human and Vehicle (Large)—high accuracy, high processor load.

9. If you need to outline the recognized objects in the preview window, select Yes for the Detected objects parameter (10).
   

10. If you use a unique neural network, select the corresponding file (11).

    Attention!

    • To train your neural network, contact AxxonSoft (see Data collection requirements for neural network training).
    • A trained neural network for a particular scene allows you to detect only objects of a certain type (e.g. person, cyclist, motorcyclist, etc.).
    • If the neural network file is not specified, the default file will be used, which is selected automatically depending on the selected object type (8) and the selected processor for the neural network operation (7). If you use a custom neural network, enter a path to the file. The selected object type is ignored when you use a custom neural network.
    • For correct neural network operation in Linux, place the corresponding file in the /opt/AxxonSoft/DetectorPack/NeuroSDK directory.
11. Set the minimum number of frames on which Neurocounter should detect objects in order to trigger (12). The value should be in the range [2; 20].
12. If necessary, specify the class of the detected object (13). If you want to display tracks of several classes, specify them separated by a comma with a space. For example, 1, 10.
    The numerical values of classes for the standard (integrated) neural networks: 1—Human/Human (top view), 10—Vehicle.
    
    1. If you leave the field blank, the tracks of all available classes from the neural network will be displayed (8, 11).
    2. If you specify a class/classes from the neural network, the tracks of the specified class/classes will be displayed (8, 11).
    3. If you specify a class/classes from the neural network and a class/classes missing from the neural network, the tracks of a class/classes from the neural network will be displayed (8, 11).

    4. If you specify a class/classes missing from the neural network, the tracks of all available classes from the neural network will be displayed (8, 11).
       

       Note

       Starting with Detector Pack 3.10.2, if you specify a class/classes missing from the neural network, the tracks won’t be displayed (8, 11).

13. In the preview window, you can set the detection areas with the help of anchor points much like privacy masks in Scene Analytics detection tools (see Setting General Zones for Scene analytics detection tools). By default, the entire frame is a detection area.

    
14. Click the Apply button.

Configuring a Neurocounter is complete.

It is possible to display the sensor and the number of objects in the controlled area in the Surveillance window on the layout. To configure this option, do the following:

1. Go to the Layout Editing mode (see Switching to layout editing mode).
2. Place the sensor anywhere in the frame.
   
3. Customize the font. To do this, click the button.
4. Save the layout (see Exiting Layout Editing mode). As a result, the sensor and the number of objects will be displayed in the selected place: