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2 761 384

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IPC

G05B23/02(2006-01-01)

G06F11/00(2006-01-01)

(21) (22)

Application

2021107330, 2021-03-19

(24)

Start date

2021-03-19

(22)

Actual filing date

2021-03-19

(45)

Published

2021-12-07

(72)

Inventor

Kulabukhov Vladimir SergeevichBublik Igor IvanovichZaets Viktor FedorovichTuktarev Nikolaj AlekseevichKravtsov Maksim SergeevichAbdulin Rashid RaisovichZalesskij Sergej EvgenevichMozharov Valerij AlekseevichKostenko Nikolaj IvanovichKupreev Mikhail YurevichMurashov Gennadij AleksandrovichKaptsov Sergej Vasilevich

(73)

Holder

Aktsionernoe Obshchestvo Moskovskij Nauchno-Proizvodstvennyj Kompleks Imeni O.V. Uspenskogo Mnpk

METHOD FOR ACTUAL CONTROL OF THE PROCESS OF ADJUSTING THE PARAMETERS OF AN INTEGRATED CONTROL SYSTEM Russian patent published in 2021 - IPC G05B23/02 G06F11/00

Abstract RU 2761384 C1

FIELD: integrated flight control systems.

SUBSTANCE: invention relates to the field of control and adjustment of integrated flight control systems (ICS) using automated workstations when testing ICS and during their operation. The invention proposes to provide a symbiosis of the operator's actions and the built-in control of the operator's actions (BCO), implemented in the AWP - a method for "actual" control. For these purposes, it is proposed to implement the tuning and adjustment process in such a way as to provide a way to create the only possible control sequence diagram that allows completing the adjustment work. At the same time, any inconsistencies (step-by-step or parametric) would not allow the successful completion of the work, and the realized possibility of documentation in the automated verification device, where the BCO will be implemented, provided supervisors with information about each step taken. The technical result of using the method for actual control of the ICS parameters is a significant reduction in the influence of the "human factor" in the process of adjustment work, an increase in the quality and accuracy of the work carried out, an increase in the safety of flights, the simplicity and feasibility of the method in the AWP.

EFFECT: proposed method for actual control will allow minimizing operator errors and reducing the influence of the "human" factor during testing and operation of aircraft control systems.

1 cl, 1 dwg

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RU 2 761 384 C1

Authors

Kulabukhov Vladimir Sergeevich

Bublik Igor Ivanovich

Zaets Viktor Fedorovich

Tuktarev Nikolaj Alekseevich

Kravtsov Maksim Sergeevich

Abdulin Rashid Raisovich

Zalesskij Sergej Evgenevich

Mozharov Valerij Alekseevich

Kostenko Nikolaj Ivanovich

Kupreev Mikhail Yurevich

Murashov Gennadij Aleksandrovich

Kaptsov Sergej Vasilevich

Dates

2021-12-07—Published

2021-03-19—Filed