METHOD FOR STANDARDISING THE FLIGHT LOAD OF A HELICOPTER PILOT WHEN PERFORMING THE "LANDING USING INSTRUMENT LANDING SYSTEMS" EXERCISE

METHOD FOR STANDARDISING THE FLIGHT LOAD OF A HELICOPTER PILOT WHEN PERFORMING THE "LANDING USING INSTRUMENT LANDING SYSTEMS" EXERCISE

FIELD: educating.SUBSTANCE: invention relates to methods for professional training of helicopter pilots. The proposed method of standardising the professional load of a helicopter pilot when performing the "Landing using instrument landing systems" exercise consists in the fact that no lat...

Ausführliche Beschreibung

Gespeichert in:
Bibliographische Detailangaben
Hauptverfasser: Bogomolov Aleksej Valerevich, Kukushkin Yurij Aleksandrovich, Khabibullin Gazinur Abdulkhakovich, Koronkov Sergej Olegovich, Zagrebina Sofya Aleksandrovna
Format: Patent
Sprache:eng ; rus
Schlagworte:
DIAGNOSIS
HUMAN NECESSITIES
HYGIENE
IDENTIFICATION
MEDICAL OR VETERINARY SCIENCE
SURGERY
Online-Zugang:Volltext bestellen
Tags: Tag hinzufügen
Keine Tags, Fügen Sie den ersten Tag hinzu!
Beschreibung
Zusammenfassung:FIELD: educating.SUBSTANCE: invention relates to methods for professional training of helicopter pilots. The proposed method of standardising the professional load of a helicopter pilot when performing the "Landing using instrument landing systems" exercise consists in the fact that no later than 10 minutes before the beginning of simulator training, the pulse rate and breathing rate of the pilot are recorded at least three times, the recorded values are averaged by calculating the arithmetic mean values thereof, and said values are taken as background values of pulse rate (x1f) and breathing rate (x2f); using mathematical modelling, the coordinates of the equisignal zone of the course beacon and the coordinates of the equisignal zone of the glideslope beacon so as to know the abscissa (x3r), ordinate (x4r) and applicate (x5r) of the equisignal zone of the course beacon, abscissa (x6r), ordinate (x7r) and applicate (x8r) of the equisignal zone of the glideslope beacon at any point; when performing the exercise, the current quantities of indicators are recorded from the beginning to the end of performance thereof with a frequency of 2 Hz: pulse rate ( x1) and breathing rate (x2) of the pilot, abscissa (x3= x6), ordinate (x4=x7) and applicate (x5=x8) of the point of current spatial position of the helicopter, wherein the coordinates of the equisignal zone of the course beacon, the coordinates of the equisignal zone of the glideslope beacon and the points of current spatial position of the helicopter are determined in one coordinate system, and upon the end of a successfully completed exercise: 1) for each recording point, the relative deviations of the current values of each indicator from the background or calculated values (values Δ1, Δ2, ..., Δ8, respectively) are calculated: for x1 and x2 (quantities Δ1 and Δ2), the quotient of the module of the difference between the current and background value of the indicator and the background value thereof, for x3, x4, x5, x6, x7 and x8 (quantities Δ3, ..., Δ8), the quotient of the module of the difference between the current and calculated value of the indicator and the calculated value thereof; 2) from each array of quantities Δ1...Δ8, constituting a combination of said quantities for all recording points, two maximum and two minimum values are excluded; 3) the quantities remaining in the arrays Δ1...Δ8 are averaged, calculating the arithmetic mean value thereof, obtaining the quantities m1...m8; 4) the arithmeti