The multimedia panel is the focal point of the information space. You will see the latest technologies and achievements of the Russian science on it.
Here you will
- learn more about the Russian universities, which educate future researchers and engineers;
- examine in all details complex robotic systems;
- take part in master classes, interactive lectures and take tests – your first step for admission to Russian universities.
In this expo space, we will demonstrate the operation of complex robotic systems, for example, the Balancer Table
- stabilization of objects in an unstable state;
- Duckie Town, a robotic smart city testfield, where wheeled robots give a ride to duckies-pedestrians in a reduced model of the urban transport environment.
The information & expo space will host all major events of the Robotics Days program.
Join us!
Luna Rover robotic kit
The Luna Rover assembly kit is designed to familiarize students with the basic components of an electronic robotic system capable of moving to the goal and overcoming obstacles. At the gaming master class, participants will study the main rover components and functions, assemble the device, turn the motor on and/or install the power unit. The machine can operate on two sources of energy: sunlight or power supply. The assembled rovers will definitely reach their goal in a competitive environment!
Codey Rocky
Codey Rocky is a small robot that can be a great helper in learning programming and robotics. With a simple interface and a variety of features, it is perfect for those who want to start exploring the world of technology and robotics. Codey Rocky can move, dance, draw, and even talk! It also supports multiple programming languages including Scratch, Python, and Blockly. This makes it a versatile learning tool! In the open class, with the help of these baby robots, we will conduct a gamer tournament to see who is the smartest, bravest, and most agile participant!
In the open class, with the help of these baby robots, we will conduct a gamer tournament to see who is the smartest, bravest, and most agile participant!
Table-balancer
An experimental system for maintaining a preset state of a mechanism or an unstable equilibrium. The table-balancer uses the principle of the inverted pendulum. It is a model for developing algorithms for different solutions of the stabilization problem. Such algorithms are used for any device in an unstable position. This can include gyroscoters, segways, monowheels and similar vehicles, as well as space rocket stabilization systems. In addition to the stabilization task, the mechatronic device addresses the task of following a given trajectory. For example, a ball on a moving table can be made to stay in the center or roll in a circle. It can also follow lines in the shape of an "8" or other trajectories.
Smart Home
The Smart Home kit is designed to learn the basics of automation, programming, and the Internet of Things (IoT).
This kit represents the perfect integration of real and digital space.
The robotic system is used for learning the following:
1. Operation principles of electronic components.
2. Skills in circuit assembly.
3. Skills in working with sketches (programming).
4. Independently setting up experiments and drawing conclusions.
5. Interaction between different fields of knowledge: programming (Internet of Things, robotics), technology (mechanical and electrical assembly, study of materials and fasteners), physics (how electronic devices work).
Using this kit, learners develop basic smart home systems, which:
- measure air temperature and humidity
- measure the concentration of smoke and gases
- measure acoustic noise levels
- detect movement inside the house
- detect water leaks
- Control lighting inside and outside the house
- open the front door
- many other things
The kit is used to explore the concept of a smart home and to solve practical problems.