Study of Procedure Errors of the Vortex Air Data System of a Subsonic Aircraft

Klyuev G.I., Makarov N.N., Soldatkin V.M., Aviatsionnye pribory i sistemy (Aircraft Instruments and Systems), (2000)

Makarov N.N., Sistemy obespecheniya bezopasnosti funktsionirovaniya bortovogo ergaticheskogo kompleksa: Teoriya, proektirovanie, primenenie (Systems of Operational Safety Providing for Onboard Ergatic Complex: Theory, Design, Application), (2009)

Alekseev N.V., Kravtsov V.G., Nazarov O.I., Et al., The System of New Generation for Measuring Air Signals, Aviakosmicheskoe priborostroenie, 8, pp. 31-36, (2003)

Kozitsyn V.K., Makarov N.N., Porunov A.A., Soldatkin V.M., Analysis of Construction Principles of Helicopter Air Data Systems, Aviakosmicheskoe priborostroenie, 10, pp. 2-13, (2003)

Soldatkin V.V., Methodological Foundations for Helicopter Altitude-Speed Parameter Measurement Using Aerometric Information from the Main Rotor Vortex Column, Izv. Vuz. Av. Tekhnika, 53, 3, pp. 51-56, (2010)

Braslavskii D.A., Logunov S.S., Pel'por D.S., Aviatsionnye pribory i avtomaty (Aircraft Instruments and Automations), (1978)

Soldatkin V.V., Sistema vozdushnykh signalov vertoleta na osnove nepodvizhnogo aerometricheskogo priemnika i informatsii aerodinamicheskogo polya vikhrevoy kolonny nesushchego vinta (Helicopter Air Signal System Based on a Fixed Aerometric Receiver and Aerodynamic Field Information of a Rotor Vortex Column), (2012)

Soldatkina E.S., Soldatkin V.M., Vortex Sensor for Aerodynamic Angle and True Airspeed with Enhanced Functionality, Izv. Vuz. Av. Tekhnika, 57, 4, pp. 54-56, (2014)

Soldatkin V.M., Soldatkina E.S., RU Patent 2506596, Byull. Izobret., (2014)

Efremova E.S., Vortex Air Data System with Spatially Distributed Multi-Function Receiver of Air Flow, Nelineihyi Mir, 1, pp. 78-84, (2017)

Klyuev G.I., Makarov N.N., Soldatkin V.M., Aviatsionnye pribory i sistemy (Aircraft Instruments and Systems), (2000)

Makarov N.N., Sistemy obespecheniya bezopasnosti funktsionirovaniya bortovogo ergaticheskogo kompleksa: Teoriya, proektirovanie, primenenie (Systems of Operational Safety Providing for Onboard Ergatic Complex: Theory, Design, Application), (2009)

Alekseev N.V., Kravtsov V.G., Nazarov O.I., Et al., The System of New Generation for Measuring Air Signals, Aviakosmicheskoe priborostroenie, 8, pp. 31-36, (2003)

Kozitsyn V.K., Makarov N.N., Porunov A.A., Soldatkin V.M., Analysis of Construction Principles of Helicopter Air Data Systems, Aviakosmicheskoe priborostroenie, 10, pp. 2-13, (2003)

Soldatkin V.V., Methodological Foundations for Helicopter Altitude-Speed Parameter Measurement Using Aerometric Information from the Main Rotor Vortex Column, Izv. Vuz. Av. Tekhnika, 53, 3, pp. 51-56, (2010)

Braslavskii D.A., Logunov S.S., Pel'por D.S., Aviatsionnye pribory i avtomaty (Aircraft Instruments and Automations), (1978)

Soldatkin V.V., Sistema vozdushnykh signalov vertoleta na osnove nepodvizhnogo aerometricheskogo priemnika i informatsii aerodinamicheskogo polya vikhrevoy kolonny nesushchego vinta (Helicopter Air Signal System Based on a Fixed Aerometric Receiver and Aerodynamic Field Information of a Rotor Vortex Column), (2012)

Soldatkina E.S., Soldatkin V.M., Vortex Sensor for Aerodynamic Angle and True Airspeed with Enhanced Functionality, Izv. Vuz. Av. Tekhnika, 57, 4, pp. 54-56, (2014)

Soldatkin V.M., Soldatkina E.S., RU Patent 2506596, Byull. Izobret., (2014)

Efremova E.S., Vortex Air Data System with Spatially Distributed Multi-Function Receiver of Air Flow, Nelineihyi Mir, 1, pp. 78-84, (2017)