Research & Development
Priority Research Areas:
- Art & Design
- Computer Science & Information Systems
- Engineering - Chemical
- Engineering - Electrical & Electronic
- Engineering - Mechanical, Aeronautical & Manufacturing
- Materials Science
News of Scientific Activity
Priority Research Areas
STC “Industrial Design” functions since 1987 in pursue of solving the tasks in the field of study of industrial design. It is a studio of industrial design and the enterprise-developer, rendering services and operating in the sphere of industrial and transportation design due to vast experience, and capable to solve non-standard tasks in a mobile mode with individual approach to each project.
Rendered Services:
- Design of Research;
- Graphic Design;
- Conceptual Engineering;
- Engineering works;
- Prototyping;
- 3D-Scanning;
- 3D-Cutting;
- Production of items made of fiberglass;
- Production of items made of carbon plastic;
- Production of Technological Rigging.
Industrial Design is a field of activity wherein the different topics projects are being implemented, starting with developing of test small – size casings for specialized appliances and ending with industrial development of printing. This allows implementing industrial engineering and developments in the framework of separate services, and a full-scale project with development of the style and technological concept, inclusive development of pilot, pre-series industrial design samples with preparation for production.
Contacts:
cardi@mami.ru
+7(919)968-52-11
frezer@cardi.ru
+7(919)968-52-11
kompozit@cardi.ru
+7(919)968-52-11
Bldg.38, Bolshaya Semyonovskaya Str., Moscow, Russia Zip Code: 1070231
In pursue of solving the tasks on development and tests of engineering mechanics functions STC “Power Units”, scientific activity of which is aimed at creation of new technologies and science-intensive products in the sphere of small power engineering. While in the process of implementing projects, the STC “Power Units” employees work in the following fields:
1. Theoretical research of the tasks set, conduct of mathematical modelling of physical processes occurring in the energy systems being developed, as well conduct of calculation research works, inclusive in such media of imitation modelling as as LabVIEW and Matlab (Simulink).
2. Formation of engineering documentation set for pilot samples in compliance with the USDD Requirements.
3. Creation of 3D models of mock up and test samples in such automatic designing systems as NX, SolidWorks и AutoCAD.
4. Computer modelling as per compliance of developed 3D models with required parameters in the media SolidWorks (FloWorks), Etc.
5. Technical supervision of the works on manufacturing and mounting of test samples.
6. Conduct of bench tests of developed units and devices of power plants.
Contacts:
Director: Lev Yurievich Lezhnyov
Address: Bldg.38, Bolshaya Semyonovskaya Str., Moscow, Zip Code: 107023
Phone: +7(495)223-05-23, Ext. 1119.
E-mail: l.lezhnev@mami.ru
For conducting high technology, research works in the field under the subject matter of interrelation of digital optics and holography there functions STC “Optoelectronics”, the most prospective work of which is conversion of an image formed at the registration matrix of a camera into digits – digital mass. With such a digital mass, one may implement multiple various operations, which allow, in particular, considerably upgrading of an image quality as well as transferring it via different communication channels.
Major distinction of developed process is in the fact that digital hologram keeps the information not only of distribution of the object image intensity - in fact, this is a photograph, but also on the light field wave front inflowing onto the registration matrix.
In a holograph scheme to the subject field of a light wave one more wave is admixed – a bearing wave and thus one register distribution of intensity of interference picture between the subject and bearing waves. That is it, which contains full information about the wave front. This is the main strong point in holography! It turns out that the knowledge about wave front gives information about the scene depth – meaning which object is located farther and closer to a spectator. Meaning that a wave front allows identifying volumetric parameters of a scene, where different objects are located, or the shape of a separate object, if a “scene” consists from one object. As it concerns digital holography, then it goes without saying that distribution of a light field intensity and its wave front is determined by means of certain calculation algorithms.
Hyper-spectrum holography
Usually, digital holograms are recorded in the coherent light, i.e. in the laser source light. This has a number of drawbacks to which may be referred optical noises, so-called speckles, inevitably present in the laser light.
In our major works for the first time, it is proposed and experimentally proved new field in digital optics, namely:
Recording of hyper-spectral holograms of micro objects in non-coherent light, based on principles and technique of Fourier – spectroscopy. As hyper-spectral holograms are recorded in non-coherent emanation, it opens feasibility of topical and important applications of this method, for example, in research of bio-objects under terahertz and farther infrared ranges, as in these ranges sufficiently cheap and obtainable sources of coherent emanation are lacking.
Contacts:
Director: Sergey Guennadyevich Kalenkov
Phone: +7-926-363-14-96
E-mail: kazer45@gmail.com
Scientific and Technical Center “Polygraphic and Innovation Technologies” was established in pursue of development and implementation of unified scientific and innovation policy, upgrading of mechanisms and forms of its implementation for sustainable development and competitiveness of scientific potential of Moscow Poly in the sphere of polygraphic and packaging production and adjacent areas.
Tasks of STC “Polygraphic and Innovation Technologies”
- conduct of fundamental and applied scientific research,
- organization and conduct of expert assessments in the sphere of polygraphic, packaging production under the orders of enterprises, state ministries and agencies (arbitrary courts, etc.)
Scientific Fields of STC “Polygraphic and Innovation Technologies”
- Surface modification of polymers and the articles made of them.
- Formation of microelectronics elements and articles by means of printing technologies
- Mathematical modelling of a structure and properties of polymer materials.
- Polymer film materials for application in polygraphy and packaging.
- 3D-printing technologies.
- Nonwoven needlepoint materials with upgraded complex of functional properties.
- Protected polygraphy.
Conduct of expert assessments and consultations under requests of the branch enterprises
Moscow Poly , being the basic branch higher education entity and scientific-research center, in pursue of providing system integration of education and science for the sake of production laid upon itself the mission of managing the quality of printed products, materials and services in the sphere of publishing and polygraphy, solving two interrelated tasks:
- Assistance in providing consumers rights for high quality polygraphic products, materials and services;
- Confirming the capabilities of stable production announced by producers of polygraphic products.
Scientific and Technical Center “Polygraphic and Innovation Technologies” of Moscow Poly is an independent expert assessment entity in the sphere of publishing and polygraphy, the status of which is confirmed by multi-year work experience.
Operational activity in rendering expert assessment services is implemented in the field Independent Expert Assessments and Research Works.
The Center was founded in 2019 in the framework of cooperation with the “”Cognitive Technologies” corporate group.
Head – dr.ing. Nikolai Viktorovich Panokin
The Center undertakes works on the following topics: study of perspective sensor systems for unmanned transport.
Developing a fundamental of mathematical tool in the field of processing data submitted by radiolocation sensors of millimeter range.
Developing neural networks and research of their application to analyze data from radiolocation sensors and data fusion of crossover information from sensors of different nature including systems of computer vision, such as video cameras and light radar.
Developing effective application methods for data processing algorithms in order to ensure the possibility of implementation into the systems of unmanned vehicles.
In 2019, 1 work has been published by the Center employees in Russian and international magazines indexed in WoS and Scopus.
Currently, there is a project “Unmanned Universal Transportation System for Recreation Areas” implemented jointly with Center for Engineering Development.
Contact person
Director, Nikolai Viktorovich Panokin
STC “Automated Technical Systems” carries out its work in the following field areas:
- Developing new engineering and soft- and hardware solutions in the sphere of producing multifunction robotized human upper limbs prostheses of various abscission degrees with the use of myoelectric intellectual operation of joint locks and joint movement ensuring the functionality level that would be close to that of a healthy arm.
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Developing a technology of large-size ceramic products of complicated configuration for various industrial spheres based on highly-concentrated nanomodified suspensions.
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Developing a technology of obtaining textured piezoceramics to produce control unit and positioning control components based on perovskite-like oxide ferroelectrics.
In the course of the research undertaken in the areas mentioned above the following results stand out:
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Developing principles of building bionic prosthetic upper limbs for prosthetics of patients with incomplete wrist and forearm amputation
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Developing algorithms of operating bionic prostheses of upper-limb bionic prostheses
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Developing principles of forming feedback for bionic prosthesis users
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Developing scientific-technical solutions to develop technology for synthesis of nanostructured powders of perovskite-like complex-oxide ferroelectrics
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Developing a laboratory technology to obtain textured material based on perovskite-like complex-oxide lead-free ferroelectrics
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Producing experimental prototypes for the control units and positioning control components from textured piezoceramics by means of vibration pressing with high functional parameters based on the obtained piezoceramic material
Center deals with the following tasks:
- Coordination of efforts ensuring acquiring, developing and technically competent operation skills (necessary) to carry out research and experimental developments
- Ensuring the unity and reliability of measurements when carrying out scientific research using the Center equipment.
- Organization of complex preparation and prompt professional retraining of specialists to carrying out tests, measurements, scientific and experimental research.
- Establishing business relations with scientific-research groups and enterprises.
- Providing scientific-research and consulting services to the universities, scientific-research institutions, and enterprises of real economy sector.
FIELDS OF ACTIVITY
Heat treatment
- Thermal effect on materials
- Analytical work with various materials in the field of thermal and chemical-thermal effect.
- Determination of mechanical properties
- Determination of geometry parameters of the surface
- Tribological tests
- Metallography
- Ion implantation
- Electro-plasms materials processing
- High-temperature microscopy
Contacts
science@mospolytech.ru
+7 (495) 223-05-23, Ext. 1510
Moscow, Avtozavodskaya st., 16, 115280
The Center for Engineering Development (CED) was founded in 2015 on the territory of MAMI by the University graduates with the help of the University president Andrei Vladimirovich Nikolaenko.
The Center helps find solutions to the engineering tasks of various levels starting fr om search for ideas coming to producing the final product.
The Center clients are students, teachers, employees of the University, as well as engineers or third-party organization representatives.
It creates an ecosystem wh ere school students can learn more about engineering professions, (university) students work on their projects, companies find their employees, inventors come up with know-hows, and people with disabilities adapt household items for themselves.
The Center is home to 5 engineering projects carried put at CED. It holds lectures, workshops for school students, as well as open door events for sector-specific companies. At the base of CED, there is an industrial complex with its specialists holding outdoor engineering events.
CED technopark is an engineering-technological complex that covers all stages of production -from a concept to the ready product. Technopark consists of three units – organization, engineering and manufacturing.
Tel.+7 (495) 223-05-23, ext. 1511
Vice-President for Scientific Affairs:
Anton Yu. Nalivaiko
a.y.nalivajko@mospolytech.ru
107023, Moscow
Bolshaya Semyonovskaya str., 38, Office N-312
+7 (495) 223-05-37
107023, Moscow
Bolshaya Semyonovskaya str., 38, Office N-314
+7 (495) 223-05-37
107023, Moscow
Bolshaya Semyonovskaya str., 38, Office B-102
+7 (495) 223-05-37
+7 (495) 223-05-37