SENSITIVITY ANALYSIS OF CONTRIBUTING FACTOR FOR UNSTABILIZED APPROACH
<p align="justify">Detecting unstabilized approach is crucial for flight safety. One of the methods used to detect unstabilized approach is the energy management method. The energy management method focuses on assessing the aircraft’s energy state within an ideal energy range duri...
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| Format: | Final Project |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/76019 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | <p align="justify">Detecting unstabilized approach is crucial for flight safety. One of the methods
used to detect unstabilized approach is the energy management method.
The energy management method focuses on assessing the aircraft’s energy
state within an ideal energy range during the approach phase. The energy
management model is influenced by the glide slope angle of the destination
airport and the specific approach reference speed for each aircraft type,
utilizing flight data from a single aircraft type landing at the same location.
The energy management method takes into account nine contributing factors
to the outcome. Stochastic sensitivity analysis is conducted by varying inputs
using Monte Carlo simulations, where input variations are based on actual
data from 2073 flights collected through the Flight Data Monitoring (FDM)
program. Sensitivity analysis is performed by introducing variations to the
inputs in the energy management model. Input variations are applied to
each factor contributing to unstabilized approach while keeping other factors
constant according to standard operational conditions represented by reference
flights. Sensitivity levels are measured by ranking factors contributing to
approach instability based on standard deviation and minimal-maximal range
of energy outputs for each factor. More significant standard deviations and
ranges in energy outputs indicate higher sensitivity levels. Based on sensitivity
analysis results, the sequence of sensitivity levels for factors contributing to
approach instability is as follows: altitude (h), pitch angle (?), groundspeed
(v), angle of attack (?), engine thrust (N1), lift coefficient (CL), aircraft mass
(m), air density (?), and coefficient of drag in zero-lift condition (CD0).
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