RUDN chemists have created a biodegradable polymer based on chitosan and polyhydroxybutyrate. Chitosan, which is obtained from animal shells and fungal cells, gives the compound antimicrobial properties, so it can be used for disposable medical and hygienic materials and products.
RUDN University professor together with colleagues from France and the USA has developed a technique for describing blood clotting regarding the individual characteristics of patients. This will help to make more accurately diagnosis and select drugs dosages for the treatment of haemophilia, thrombosis and other blood coagulation disorders.
RUDN chemists have proven the effectiveness of metal complexes for catalysis of cyanhydrin production — substances important for the chemical industry. Chemists managed to achieve 96.3% of the reaction efficiency.
The Center focuses on solving practical problems in the development of mathematical models for quality evaluation of the functioning of Internet of Things infrastructure within conditions of device dynamic relocation. The studies conducted by the Center lie at the junction of probability theory, mathematical statistics, and queuing theory.
The main research goal is the improvement of applied computational methods for solving problems in mathematical physics, probability and statistics theory.
Research and development of the scientific foundations and a complex of stochastic models to evaluate the effectiveness and reliability of devices interconnection in wireless networks of the Internet of Things.
conduct analysis of signal-to-interference ratio as well as related indicators of quality in terms of random processes for typical scenarios of user interaction in 5G networks supporting D2D connections and the Internet of Things.
Brno, Czech Republic
International research organization
conduct analysis of the statistical characteristics of subscriber traffic in wireless networks in order to identify the spatial-probabilistic characteristics of traffic as well as the reliability of network connections.
computer implementation of symbolic-numerical algorithms for solving initial boundary problems for the corresponding systems of partial differential equations simulating the effects of Maxwell's optics and quantum mechanics.
Development of Stochastic models for different research areas such as biology, demographics, climatology, energy, telecommunications, economics, etc.
Computer implementation of analytical and numerical algorithms for solving kinetic equations.
International high-tech company
implementation of complex mathematical models for managing radio resources of 5G wireless heterogeneous networks that support direct interaction of D2D devices, Internet of Things (IoT) and Internet of Reliable Things (IoRT).