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---
title: What is ArGaze?
---
# Develop post- or real-time gaze processing applications
**Useful links**: [Installation](installation.md) | [Source Repository](https://gitpub.recherche.enac.fr/argaze) | [Issue Tracker](https://git.recherche.enac.fr/projects/argaze/issues) | [Contact](mailto:argaze-contact@recherche.enac.fr)
**ArGaze** is a Python software library that lets you build **custom-made gaze processing pipelines** for **any kind of eye tracker device,** whether for **post- or real-time data processing**.
## Gaze analysis pipeline
**ArGaze** provides an extensible modules library, allowing to select application-specific algorithms at each pipeline step:
* **Fixation/Saccade identification**: dispersion threshold identification, velocity threshold identification, ...
* **Area Of Interest (AOI) matching**: focus point inside, deviation circle coverage, ...
* **Scan path analysis**: transition matrix, entropy, explore/exploit ratio, ...
Once the incoming data is formatted as required, all those gaze analysis features can be used with any screen-based eye tracker devices.
[Learn how to build gaze analysis pipelines for various use cases by reading the dedicated user guide section](./user_guide/gaze_analysis_pipeline/introduction.md).
## Augmented reality based on ArUco marker pipeline
Things goes harder when gaze data comes from head-mounted eye tracker devices. That's why **ArGaze** provides **Augmented Reality (AR)** support to map **Areas Of Interest (AOI)** on [OpenCV ArUco markers](https://www.sciencedirect.com/science/article/abs/pii/S0031320314000235).
This ArUco marker pipeline can be combined with any wearable eye tracking device Python library, like Tobii or Pupil glasses.
[Learn how to build ArUco marker pipelines for various use cases by reading the dedicated user guide section](./user_guide/aruco_marker_pipeline/introduction.md).
!!! note
*ArUco marker pipeline is greatly inspired by [Andrew T. Duchowski, Vsevolod Peysakhovich and Krzysztof Krejtz article](https://git.recherche.enac.fr/attachments/download/1990/Using_Pose_Estimation_to_Map_Gaze_to_Detected_Fidu.pdf) about using pose estimation to map gaze to detected fiducial markers.*
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