Ukrainian: Харківський національний університет радіоелектроніки
Other name
NURE
Former name
Kharkiv Engineering-Building Institute (1930-1966) Kharkiv Institute of Radio Electronics (1966-1993) Kharkiv Technical University of Radioelectronics (1993-2001)
Kharkiv National University of Radio Electronics (NURE) (Ukrainian: Харківський національний університет радіоелектроніки) is a technology university based in Kharkiv, Ukraine. Founded in 1930, it is among the oldest technologically focused universities in Ukraine, with a student body of around 7,000.
NURE was founded in 1930 as the Kharkiv Engineering-Building Institute (KEBI), initially combining faculty from the Kharkiv Polytechnical Institute and architectural faculty of Kharkiv Art Institute. In 1934 the Kharkiv Geodetic Institute and Scientific Research Institute of Geodesy and Cartography entered the structure of the institute, which later became the largest higher education institution in Ukraine with 1734 students, 200 teachers and 4 faculties. In 2001 the university was advanced to a National University.
University structure
The university consists of 7 faculties and 34 departments:
The university ranks first among technical universities of Ukraine, and Scimago IR ranked it as 13th place among the Ukraine institutions.[3] In the 2023 QS World University Rankings, NURE was ranked 1001–1200.[4]
Scientific schools
A number of research laboratories operate on the basis of NURE. Scientific research is conducted in both fundamental and scientific-applied areas. There are 30 scientific schools:
telecommunication systems;
medical instrument making and medical microprocessor systems;
design and diagnostics of computer systems and networks;
design and technical diagnostics of digital systems on crystals, computers and networks;
meteor radar;
methodologies, methods and information technologies for the development of integrated and Web-based information systems;
systems analysis, decision making and mathematical modeling in socio-economic systems;
intellectual information processing;
radio wave and infrared diagnostics of materials, environments and objects;
applied electrodynamics;
bionics of intelligence;
noosphere methodology and technology for solving knowledge management and competitive intelligence problems;
remote methods of sounding the atmosphere by acoustic and electromagnetic waves;
methods of normalization, recognition, analysis and image processing in computer vision systems;
thermal methods of non-destructive quality control of materials and products: defectoscopy, defectometry and tomography;
hybrid computing intelligence systems for data analysis, information processing and control.