The Radio Engineering Center of the National Academy of Sciences of Belarus offers a Non-Cooperative Aircraft Type Recognition System for an airborne pulse-Doppler radar to consumers under a commercial agreement with technical assistance and/or a licensing agreement and is looking for partners to conclude a technical cooperation agreement.

A non-cooperative radar aircraft type recognition system for an airborne pulse-Doppler radar is designed to automatically identify the types of jet and propeller-driven aircraft tracked by an airborne radar based on a detailed analysis of the subtle properties of radar signals reflected from these objects and information received by the radar.

Aircraft type recognition using pulse-Doppler radar is a pressing issue. Despite numerous scientific publications on radar type recognition, the problem of aircraft type recognition, as opposed to recognizing aircraft classes comprising different types (e.g., F-15, F-16, B-52, B-2, etc.), has not yet been solved in practice.
Therefore, a theory of radar aircraft type recognition, algorithms for the automatic jet and propeller-driven aircraft type recognition system, and software confirming the effectiveness of the developed algorithms have been developed. The performance of the aircraft type recognition system was studied under various operating conditions. Effective solutions were developed to eliminate the influence of the engine operating mode of a maneuvering aircraft on recognition results.

The results of the development can be used in multifunctional radars for detecting and tracking high-speed maneuverable objects in near space.

The information is published in the Catalog "100 Best Developments of the National Academy of Sciences of Belarus for the National Economy in 2022–2023" (2024), pp. 96–97.

There are no domestically produced non-cooperative radar aircraft type recognition systems for airborne pulse-Doppler radars. Compared to foreign equivalents, this development provides significantly higher aircraft type recognition accuracy.
For example, recognition of 10 jet aircraft types with a signal-to-noise ratio at the recognition system input of at least 15 dB is achieved with an average probability of correct type recognition of at least 0.71.

The Republican Scientific and Production Unitary Enterprise "Radio Engineering Center of the National Academy of Sciences of Belarus" is under the jurisdiction of the National Academy of Sciences of Belarus, assigned to the Department of Physical and Technical Sciences of the NAS of Belarus, and accredited as a scientific organization—a form of state recognition of a legal entity's competence in research, development, and experimental technology work.

Activities: Fundamental and applied problems of radio signal generation and processing. Development of new principles and algorithms for advanced radio engineering systems and devices. Creation of modern radio engineering devices.

Products and services: principles, methods, and algorithms for advanced radio engineering systems; mathematical models of complex radio engineering systems and their software implementation; experimental prototypes of modern radio engineering systems; modernization of obsolete radio engineering systems; testing of radio engineering systems.

Official website of the Radio Engineering Center of the National Academy of Sciences of Belarus.

Customers interested in purchasing the Non-Cooperative Aircraft Type Recognition System for Airborne Pulse-Doppler Radar under a commercial agreement with technical assistance and/or a license agreement.

Partners interested in developing the Non-Cooperative Aircraft Type Recognition System for Airborne Pulse-Doppler Radar under a technical cooperation agreement.