Алгоритм выбора коэффициентов пропорционального метода наведения…

Инженерный журнал: наука и инновации

# 9·2016 15

Parameter selection algorithm for proportional navigation

aircraft guidance based on target position

© A.N. Klishin, O.S. Shvyrkina

Bauman Moscow State Technical University, Moscow, 105005, Russia

Employing aircraft guidance at the final trajectory span should ensure that the conse-

quences of previous manoeuvres along with deviations of real trajectory from nominal

homing trajectory are eliminated. At present, trajectory guidance methods do not com-

pletely satisfy the requirements for efficiently reaching ground targets. Therefore, devel-

oping algorithms of trajectory guidance to collectively increase accuracy and potential

stationary object reaching zone is a pressing problem. The primary objective of the study

is to synthesise and validate implementation of an object guidance algorithm based on

selecting proportional guidance parameters with the help of empirical dependences, so

that the algorithm makes it possible to execute the tasks posed. Guidance based on the

algorithm developed made it possible to improve guidance quality by increasing accura-

cy and expanding the target reaching zone threefold.

Keywords:

guidance methods, accuracy, aircraft.

REFERENCES

[1]

Lysenko L.N.

Navedenie i navigatsiya ballisticheskikh raket

[Guidance and

navigation for ballistic missiles]. Moscow, BMSTU Publ., 2007, 672 p.

[2]

Kirillov S.N., Tokar A.D.

Vestnik RGRTU — Scientific and Technical Journal

Vestnik of Ryazan State Radio Engineering University

, 2008, no. 24, pp. 33–38.

[3]

Dmitrievskiy A.A., Lysenko L.N.

Vneshnyaya ballistik

[External ballistics].

Moscow, Mashinostroenie Publ., 2005, 607 p.

[4]

Sikharulidze Yu.G

. Ballistika i navedenie letatelnykh apparatov

[Aircraft

ballistics and guidance]. Moscow, Binom Publ., Laboratoriya Znaniy Publ.,

2011, 407 p.

[5]

Solunin V.L., ed.

Osnovy teorii sistem upravleniya vysokotochnykh raketnykh

kompleksov Sukhoputnykh voysk

[Foundations of guidance system theory for

ground forces precision rocket systems]. Moscow, Bauman Moscow State

Technical University Publ., 2001.

[6]

Lebedev A.A., Karabanov V.A.

Dinamika sistem upravleniya bespilotnymi

letatelnymi apparatami

[Guidance system dynamics for unmanned aircraft].

Moscow, Mashinostroenie Publ., 1965, 528 p.

Klishin A.N.

(b. 1975) graduated from Bauman Moscow State Technical University in

1999. Assoc. Professor, Department of Dynamics and Flight Control of Rockets and

Spacecraft, Bauman Moscow State Technical University. Author of over 150 scientific

and popular science publications in the fields of ballistics, flight dynamics, aircraft mo-

tion guidance and armament history.

Shvyrkina O.S.

(b. 1992), a student, Department of Dynamics and Flight Control of

Rockets and Spacecraft, Bauman Moscow State Technical University.

e-mail:

bonjour15@mail.ru