Join the big family of Armathians
Discover our comprehensive STEM education programs designed to shape the future through innovation
Our Educational Programs
- Creating simple computer games
- Creating and using animations
- Applying physics laws
- Applying mathematical algorithms
- Performing arithmetic calculations
- Visualizing algorithmic tasks using mathematical formulas
- Working with Arduino microcontroller
- Making robot and IOT devices
- Working with raspberry pi and Serob controller
- Making robot and IOT devices
- Solving mathematical problems
- Learning and exploring the technical structure of 3D printers
- Printing modeled objects
- Understanding the stages of the printing process
- Creating STL and code files for 3D printers
- Learning FreeCAD and OpenSCAD modeling program
- Assembling simple robot kits
- Programming line following robots
- Using K-turtle and Kria programs for robot programming
- Assembling SERob robots
- Connecting Robots to PCs, laptops, tablets, or smartphones
- Creating basic programs for robots using Aghues and Kria
- Designing and programming robots with functions such as line tracking, object detection and sorting, obstacle avoidance, and other movement behaviors
- Learning the Inkscape modeling program
- Learning of HeeksCAD and HeeksCNC programs
- Understanding bCNC program for CNC machine control
- Creating objects by drilling and laser cutting
- UAV schematic model making
- UAV type model making
- UAV composite model assembly
- Helicopter type aircraft assembly (copter)
Technical Equipment and Programs
Open source operational system based on Linux/Debian Raspbian-stretch, created for Armath engineering makerspaces by the consortium of Companies – Nairi. The interface and software packages are in Armenian language and adapted for Armenian kids.
- Linux/Debian based
- Armenian language interface
- Adapted for Armenian kids
Digital modeling allows you to create three-dimensional models of any objects and details. Students can print objects and parts that they have modeled, allowing them to create and assemble new 3D printers, print cases for mini computers, as well as other devices and items.
- Digital modeling
- Three-dimensional objects
- Custom parts creation
It carvings on wood, lanterns, ABS, and other materials based on pre-modeled text, object, detail, etc. This machine allows students to have experience in engineering and modeling, and to be able to create items and details, which are used in the manufacturing process.
- Precision cutting
- Multiple materials
- Engineering experience
This Robotics kit allows to learn and teach the basic principles of robotics, to make automatization of processes, to plan and solve various engineering problems, to organize national and international competitions, as well as to participate in international robotics events.
- Basic robotics principles
- Process automation
- Competition ready
The computers that are packaged in Armenia are compact, lightweight and universal, can be connected to Internet (LAN, Wi-Fi). They are using for learning Aghues/Scratch, K-turtle/Kriay and other computer programming languages. After programming the mini computers can also be controller of robots.
- Compact design
- Internet connectivity
- Programming platform
Aghues is a visual programming environment and a toolkit, that lets kids make games, animated stories, interactive art, as well as share their creations with others on the Net. It is enhanced with modules that support sensors, motors, and robots board. The underlying program is an adaptation of the Scratch environment, developed by MIT.
- Visual programming
- Game creation
- Robot integration
Kria is an adaptation of MIT's Kturtle, an educational programming environment. Kria is suitable for teaching kids the basics of maths, geometry and programming. One of the main features of Kria is the ability to translate commands into the standard markup language(HTML), but the result can be saved as a vector or transparency image(SVG, PNG).
- Mathematical programming
- Geometry learning
- Vector graphics
Shaping the Future Through Innovation
By empowering young minds with robotics, programming, and engineering, we are building the next generation of creators and problem‑solvers.