Machine learning algorithm to learn and predict aircraft/ engine type using engine noise data
This report serves as illustrative purpose of learning experiences and project executions which author had undertaken during AY2019/20 for Final Year Project (FYP). It summarized the invaluable knowledge and important technique acquired through accomplishing various task associated with FYP. Remote...
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2020
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sg-ntu-dr.10356-1406542023-03-04T20:02:46Z Machine learning algorithm to learn and predict aircraft/ engine type using engine noise data Jimmy Sameer Alam School of Mechanical and Aerospace Engineering Air Traffic Management Research Institute (ATMRI) sameeralam@ntu.edu.sg Engineering::Aeronautical engineering::Air navigation Engineering::Computer science and engineering::Computing methodologies::Artificial intelligence This report serves as illustrative purpose of learning experiences and project executions which author had undertaken during AY2019/20 for Final Year Project (FYP). It summarized the invaluable knowledge and important technique acquired through accomplishing various task associated with FYP. Remote Control Tower (RTC) serves as a cost saving alternative for small regional airports. Aircraft Identification System within RTC is expected to minimize the workload of air traffic officers and increase their spatial awareness. Current aircraft identification research focuses heavily on visual based aircraft classification through computer vision. Author then proposed an auditory aircraft identification system through machine learning model. Author conducted both onsite and online aircraft sound data collection. The audio data undergone various audio signal process such as filtering and audio event detection to remove noise within the audio files. Several audio spectral features such as Mels Coefficient, Spectral Contrast were extracted from the processed audio files. Author proceed to construct several sound classification deep learning models. These models were trained using spectral features and were able to make prediction of aircraft type based on the aircraft sound. Time delay Neural Network (TDNN) model was the best performing model with F1-score of 0.67 on 3 different aircraft class namely A320, B738 and B77W. Bachelor of Engineering (Aerospace Engineering) 2020-06-01T04:18:19Z 2020-06-01T04:18:19Z 2020 Final Year Project (FYP) https://hdl.handle.net/10356/140654 en A020 application/pdf Nanyang Technological University |
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Engineering::Aeronautical engineering::Air navigation Engineering::Computer science and engineering::Computing methodologies::Artificial intelligence Jimmy Machine learning algorithm to learn and predict aircraft/ engine type using engine noise data |
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This report serves as illustrative purpose of learning experiences and project executions which author had undertaken during AY2019/20 for Final Year Project (FYP). It summarized the invaluable knowledge and important technique acquired through accomplishing various task associated with FYP. Remote Control Tower (RTC) serves as a cost saving alternative for small regional airports. Aircraft Identification System within RTC is expected to minimize the workload of air traffic officers and increase their spatial awareness. Current aircraft identification research focuses heavily on visual based aircraft classification through computer vision. Author then proposed an auditory aircraft identification system through machine learning model. Author conducted both onsite and online aircraft sound data collection. The audio data undergone various audio signal process such as filtering and audio event detection to remove noise within the audio files. Several audio spectral features such as Mels Coefficient, Spectral Contrast were extracted from the processed audio files. Author proceed to construct several sound classification deep learning models. These models were trained using spectral features and were able to make prediction of aircraft type based on the aircraft sound. Time delay Neural Network (TDNN) model was the best performing model with F1-score of 0.67 on 3 different aircraft class namely A320, B738 and B77W. |
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Sameer Alam |
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Sameer Alam Jimmy |
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Final Year Project |
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Jimmy |
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Jimmy |
title |
Machine learning algorithm to learn and predict aircraft/ engine type using engine noise data |
title_short |
Machine learning algorithm to learn and predict aircraft/ engine type using engine noise data |
title_full |
Machine learning algorithm to learn and predict aircraft/ engine type using engine noise data |
title_fullStr |
Machine learning algorithm to learn and predict aircraft/ engine type using engine noise data |
title_full_unstemmed |
Machine learning algorithm to learn and predict aircraft/ engine type using engine noise data |
title_sort |
machine learning algorithm to learn and predict aircraft/ engine type using engine noise data |
publisher |
Nanyang Technological University |
publishDate |
2020 |
url |
https://hdl.handle.net/10356/140654 |
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1759853714229690368 |