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Global Positioning System (GPS) technology has revolutionized navigation and positioning, but its accuracy is often compromised by various errors. These errors, stemming from environmental, satellite, and receiver-related factors, require careful mitigation to ensure reliable performance across applications.Atmospheric ErrorsGPS signals travel through the Earth’s ionosphere and troposphere, introducing delays which affect accuracy. The ionosphere is strongly influenced by charged particles,...
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DeepSpoofNet: a framework for securing UAVs against GPS spoofing attacks.

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Summary
This summary is machine-generated.

This study introduces a novel framework to detect Global Positioning System (GPS) spoofing attacks on Uncrewed Aerial Vehicles (UAVs). The proposed method enhances detection accuracy, crucial for UAV security and reliable navigation.

Keywords:
Neural networkSecurity

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Area of Science:

  • Cybersecurity
  • Aerospace Engineering
  • Artificial Intelligence

Background:

  • Uncrewed Aerial Vehicles (UAVs) are increasingly vital in various sectors, but susceptible to Global Positioning System (GPS) spoofing attacks.
  • GPS spoofing can compromise UAV control, leading to capture or destruction, necessitating robust detection mechanisms.
  • Existing machine learning methods face challenges like imbalanced datasets and limited accuracy in resource-constrained environments.

Purpose of the Study:

  • To investigate optimal feature selection (FS) and deep learning techniques for detecting GPS spoofing attacks on UAVs.
  • To address limitations in current research, including imbalanced datasets and sub-optimal feature selection.
  • To develop a framework that improves the accuracy and reliability of GPS spoofing detection in UAVs.

Main Methods:

  • Implemented rigorous oversampling techniques to handle imbalanced datasets.
  • Combined advanced feature selection methods with a hybrid neural network (NN) architecture.
  • Utilized a Convolutional Neural Network (CNN) and Bidirectional Long Short-Term Memory (BiLSTM) integrated model.

Main Results:

  • The proposed Analysis of Variance (ANOVA) + CNN-BiLSTM hybrid model achieved superior performance.
  • Exceptional results include 98.84% precision, 99.25% accuracy, 99.26% F1 score, and 99.69% recall.
  • Demonstrated significant improvements in prediction accuracy, true/false positive rates, F1 score, and recall.

Conclusions:

  • The developed hybrid model effectively detects GPS spoofing attacks on UAVs, overcoming existing research challenges.
  • The framework offers a robust solution for enhancing UAV security against sophisticated cyber threats.
  • The findings pave the way for more secure and reliable autonomous navigation systems.