Tactigon Developer Case

329,00 

Tactigon wearable boards kit, programmable with Arduino IDE, for high precision 3D gesture control, motion capture, GPS tracking and vibration measurements.

Out of stock

Tactigon ONE developer case offers a comprehensive and ready-to-use kit for developers looking to create innovative projects utilizing motion technology.

This kit provides everything necessary for high precision 3D gesture control, motion capture, GPS tracking, and vibration measurements.

Tactigon wearable boards kit, which can be easily programmed using Arduino IDE, enable developers to create cutting-edge applications in areas such as artificial intelligence.

Included in this kit are 3 Tactigon ONE devices, 1 Raspberry Pi, and 1 SD card with a Raspberry Pi image.

Applications

  • Gaming
  • Robotics
  • Sports
  • VR/AR
    • Communication: BLE
    • Arduino SDK 2D/3D API
    • IMU on board: 3-axis accelerometer, gyroscope and magnetometer
    • Other sensors: Temperature and Pressure
    • Battery: Li-Ion rechargeable
    • Board Dimensions: 46.9 x 15.2 x 5.5 mm
    • Case dimensions: 380 x 270 x 115 mm

    Examples

    In this video we’ll look at how to use Euler’s angles to control a rover.

    In this video we will look at how to build a Smart GPS Receiver using The Tactigon’s IMU to integrate GPS data with Euler’s Angles and save the path to smartphone’s memory.

    Combining The Tactigon with Raspberry Pi in a project born from the need of lights controlling in an environment.

    Tutorials

    This is a first step to build your gesture recognition project. How to use accelerometer sensor in The Tactigon Board.

    This project is simple gesture control. The video shows sample code to use Bluetooth 4.0, IMU sensor, and data send.

    This project is simple gesture control. This is the Processing (Android) source code for the receiver unit.

    In this tutorial we’ll be covering a very important topic that you need to consider when using any battery powered device.

    In this tutorial we’ll be covering how you can gather information about the environment where you’re using the Tactigon board.

    In this tutorial we’ll be covering one of the main onboard sensors, the magnetometer.

    In this tutorial we’ll be covering one of the main onboard sensors, the accelerometer.

    In this tutorial we’ll be covering one of the main onboard sensors, the gyroscope.

    In this tutorial we’ll be covering how you can interface the Tactigon board with I/O devices.

    In this tutorial we’ll be covering how you start using the onboard BLE of the Tactigon board.

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