Altair RTU MIREA Children's Technopark

History

2021: Status of Federal Innovation Platform

Since March 2021, the Altair Children's Technopark has the status of a federal innovation platform.

2019: Opening of the children's technopark

On August 28, 2019, Altair Children's Technopark opened on the basis of the Russian Technological University.

The decision to create a children's technopark on the basis of MIREA was made by the Moscow Government in the fall of 2018. On the basis of the children's technopark, 3 educational clusters are organized in the following areas: "Information Technologies," "Biomedical and Chemical Technologies" and "Radioelectronics," which will provide high-quality additional education on the basis of specially equipped laboratories.

The total area of ​ ​ the technopark is 1,800 square meters. m, on which there will be 10 laboratories equipped with high-tech equipment. More than 50 educational programs have been developed for schoolchildren. At the same time, 60 students can study in the technopark, and annually at least 5,000 students will undergo free educational programs based on the technopark, intended for high school students.

The opening ceremony of the RTU MIREA children's technopark was attended by: Mayor of Moscow Sergey Sobyanin, head of the Department of Entrepreneurship and Innovative Development of the city of Kazakhstan Alexei Fursin, rector of MIREA - Russian Technological University Stanislav Kuj, as well as representatives of the Department of Entrepreneurship and Innovative Development of the city of Moscow and industrial partners.

Industrial partners of the Children's Technopark, Samsung Electronics LLC,,,, Yandex Mail.ru Group Rostelecom Solar(Oracle TEPPA TEX Russian Space Systems),,,,,,,, Dow Chemical and Roselektronika National Instruments Rohde&Schwarz ASCON Eremex Generium others took part in the development of programs.

According to the results of training in the technopark, schoolchildren can prepare and protect an individual or team project. If successful, they will receive up to 10 additional points to the exam results upon admission to MIREA.

At the opening ceremony of the children's technopark, cooperation agreements were signed with the industrial partners of RTU MIREA: Samsung Electronics, the Russian transnational company Yandex LLC, the international electrotechnical group Rohde & Schwarz and the Russian developer, integrator of Askon engineering software and the national provider of services and technologies to protect information assets, "Rostar information monitoring and management.

[[:Шаблон:Quote 'author = said Moscow Mayor Sergei Sobyanin]]

[[:Шаблон:Quote 'author = commented the rector of MIREA - Russian University of Technology Stanislav Kuj]]

Cooperation with industrial partners on the one hand, and schools on the other, on the basis of a technological university will have a synergistic effect and a different quality of additional education for schoolchildren. Since September 2019, about 1.5 thousand schoolchildren have been registered on the site of the children's technopark, who will be engaged in more than 70 training courses. All programs were developed by University employees together with industrial partners, as a result of the training, students will have to create their own project or solve a case. The teachers of the programs will be both university teachers and our young undergraduates and graduate students who have been trained in the programs of partner enterprises. Separately, I would like to note that the most successful graduates of the children's technopark will have the opportunity to receive up to 10 additional points upon admission to universities and continue their studies at the MIREA RTU in special groups of "elite" training,

MIREA Children's Technopark - Russian Technological University - is one of the largest sites in To Moscow which the SAMSUNG IT School program will be implemented. Since the current school year, more than 5 groups of high school students will undergo an annual program of additional education on the basics of IT and programming, developed by specialists of the Moscow Research Center. Samsung The training course will help students master the material in a form adapted for schoolchildren, gain practical skills in developing applications in the ideology of the industrial industry.

To implement the SAMSUNG IT School project, the company will provide the Children's Technopark with an electronic textbook developed by specialists of the Samsung Moscow Research Center and a team of teachers, according to which students will learn theoretical and practical material, as well as pass control tests on the modules of the program. Teachers of the program will undergo special training.

Also in the Technopark RTU MIREA will begin work "Yandex.Lyceum" - a free two-year course for schoolchildren to teach the Phyton programming language. According to the results of the program, the guys receive knowledge sufficient to start a career in the role of junior developers. In the first set, which starts on August 30, on the project website, the technopark is ready to accept more than 70 students. The demand for training at Yandex.Lyceum is extremely high: over 3 years of work in Moscow, the project has almost doubled, in the upcoming 2019/20 academic year, more than 1,500 children will study at 53 sites.

Additional information about the children's technopark RTU MIREA

IT Technology Lab Cluster:

Laboratories equipped with advanced equipment are open for schoolchildren, including virtual reality simulators, a holographic platform, a holographic table, workstations, computer chairs and much more. Studying in laboratories, students receive in-depth knowledge and skills in the field of information technology, augmented and virtual reality technologies, study cartography and geoinformation technologies in the field of geoinformatics, master modern computer technology.

1. Virtual Reality Interactive Systems Lab.
2. Geoinformatics Lab.

Educational programs:

• E-Business Information Technology
• Machine learning and artificial intelligence
• Legal Security Analytics
• Application of blockchain technology
• Design-design in 3D modeling programs
• Computer Graphics in Autodesk 3ds Max
• Programming on Python
• Developing Gaming Applications in Unity (C#)
• Developing an Interactive Site
• Virtual/Augmented Reality Application Development (C#)
• Mobile Application Development
• Development of interactive virtual excursions.

Biomedical and Chemical Technologies Laboratory Cluster:

Classes are held in modern laboratories, where students have all the necessary modern equipment: automated research workplaces, laboratory cabinets, spectrometers and chromatographs, various chambers, refrigerators for microorganisms and media, professional microscopes and much more.

1. Young Researchers Laboratory
2. Laboratory of Organic and Inorganic Chemistry
3. Biohacking Laboratory

Educational programs:

• Fragrance Chemistry
• Fundamentals of physical chemistry
• Catalysis
• Basics of Biological Object Analysis Methods
• Chemistry of living systems
• Chemistry of amino acids
• Synthesis of peptides
• Superficial phenomena
• Spektrofotomeriya
• Chemical detective
• Chemical analysis in modern technologies
• Electrochemistry
• Biomolecula
• Complex connections
• Metalchemistry
• World around
• Organic chemistry.

Cluster of Radioelectronics laboratories:

Modern technical stations are open for schoolchildren, equipped with advanced equipment: workstations, machines, repair centers, various generators and analyzers, unmanned systems, laboratory stands, Arduino sets, 3D printers and many others. On the basis of techniques, students study the modern electronic component base, learn to develop real devices, systems and complexes, are engaged in their design and modeling.

1. "Radiotechnical Measurements and Signal Processes" Engineering Station.
2. "Process of avionics" engineering station.
3. Technology "Radio wave systems and complexes"
4. processor Micro Devices and Technology Technology
5. Interactive exhibition "Radioquest"

Educational programs:

• Radio designing
• Radio-electronic technologies
• Programming and development of microprocessor devices
• Development and programming of telecom and radio transmission devices on microcontrollers
• Nonlinear location
• Radio Engineering Signals in Radio Communications
• Development of electronic devices based on Arduino
• Additive Technologies in Mechanical Engineering
• Principles of modern electronics and circuitry
• 3E Modeling and Prototyping Fundamentals
• Basics of 3D modeling in COMPASS-3D. Use of CAD in optics and electronics