Hypovigilance Detection for UCAV Operators Based on a Hidden Markov Model

With the advance of military technology, the number of unmanned combat aerial vehicles (UCAVs) has rapidly increased. However, it has been reported that the accident rate of UCAVs is much higher than that of manned combat aerial vehicles. One of the main reasons for the high accident rate of UCAVs is the hypovigilance problem which refers to the decrease in vigilance levels of UCAV operators while maneuvering. In this paper, we propose hypovigilance detection models for UCAV operators based on EEG signal to minimize the number of occurrences of hypovigilance. To enable detection, we have applied hidden Markov models (HMMs), two of which are used to indicate the operators’ dual states, normal vigilance and hypovigilance, and, for each operator, the HMMs are trained as a detection model. To evaluate the efficacy and effectiveness of the proposed models, we conducted two experiments on the real-world data obtained by using EEG-signal acquisition devices, and they yielded satisfactory results. By utilizing the proposed detection models, the problem of hypovigilance of UCAV operators and the problem of high accident rate of UCAVs can be addressed.

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Sensorimotor Cortex EEG signal classification using Hidden Markov Models and Wavelet Decomposition

2018 IEEE International Symposium on Signal Processing and Information Technology (ISSPIT) ◽

10.1109/isspit.2018.8642655 ◽

2018 ◽

Author(s):

Maheen Mumtaz ◽

Mubashira Afzal ◽

Aleem Mushtaq

Keyword(s):

Hidden Markov Models ◽

Sensorimotor Cortex ◽

Wavelet Decomposition ◽

Markov Models ◽

Hidden Markov ◽

Signal Classification ◽

Eeg Signal ◽

Eeg Signal Classification

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High-Resolution Movement EEG Classification

Computational Intelligence and Neuroscience ◽

10.1155/2007/54925 ◽

2007 ◽

Vol 2007 ◽

pp. 1-12 ◽

Cited By ~ 7

Author(s):

Jakub Štastný ◽

Pavel Sovka

Keyword(s):

High Resolution ◽

Markov Models ◽

Hidden Markov ◽

Large Fraction ◽

Signal Denoising ◽

Eeg Signal ◽

Eeg Classification ◽

Classification Score ◽

Experimental Subjects ◽

Little Finger

The aim of the contribution is to analyze possibilities of high-resolution movement classification using human EEG. For this purpose, a database of the EEG recorded during right-thumb and little-finger fast flexion movements of the experimental subjects was created. The statistical analysis of the EEG was done on the subject's basis instead of the commonly used grand averaging. Statistically significant differences between the EEG accompanying movements of both fingers were found, extending the results of other so far published works. The classifier based on hidden Markov models was able to distinguish between movement and resting states (classification score of 94–100%), but it was unable to recognize the type of the movement. This is caused by the large fraction of other (nonmovement related) EEG activities in the recorded signals. A classification method based on advanced EEG signal denoising is being currently developed to overcome this problem.

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Sensorimotor Cortex EEG signal classification using Hidden Markov Models and Wavelet Decomposition

2018 IEEE International Symposium on Signal Processing and Information Technology (ISSPIT) ◽

10.1109/isspit.2018.8642672 ◽

2018 ◽

Cited By ~ 1

Author(s):

Maheen Mumtaz ◽

Mubashira Afzal ◽

Aleem Mushtaq

Keyword(s):

Hidden Markov Models ◽

Sensorimotor Cortex ◽

Wavelet Decomposition ◽

Markov Models ◽

Hidden Markov ◽

Signal Classification ◽

Eeg Signal ◽

Eeg Signal Classification

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Estimating Personality Impression from Speech Record Using Hidden Markov Models

IEEJ Transactions on Electronics Information and Systems ◽

10.1541/ieejeiss.135.1517 ◽

2015 ◽

Vol 135 (12) ◽

pp. 1517-1523 ◽

Cited By ~ 1

Author(s):

Yicheng Jin ◽

Takuto Sakuma ◽

Shohei Kato ◽

Tsutomu Kunitachi

Keyword(s):

Hidden Markov Models ◽

Markov Models ◽

Hidden Markov

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Hidden Markov Processes

10.23943/princeton/9780691133157.001.0001 ◽

2014 ◽

Cited By ~ 2

Author(s):

M. Vidyasagar

Keyword(s):

Hidden Markov Models ◽

Markov Processes ◽

Viterbi Algorithm ◽

Markov Models ◽

Hidden Markov ◽

Local Alignment ◽

Biological Applications ◽

Standard Material ◽

Hidden Markov Processes ◽

Genomics And Proteomics

This book explores important aspects of Markov and hidden Markov processes and the applications of these ideas to various problems in computational biology. It starts from first principles, so that no previous knowledge of probability is necessary. However, the work is rigorous and mathematical, making it useful to engineers and mathematicians, even those not interested in biological applications. A range of exercises is provided, including drills to familiarize the reader with concepts and more advanced problems that require deep thinking about the theory. Biological applications are taken from post-genomic biology, especially genomics and proteomics. The topics examined include standard material such as the Perron–Frobenius theorem, transient and recurrent states, hitting probabilities and hitting times, maximum likelihood estimation, the Viterbi algorithm, and the Baum–Welch algorithm. The book contains discussions of extremely useful topics not usually seen at the basic level, such as ergodicity of Markov processes, Markov Chain Monte Carlo (MCMC), information theory, and large deviation theory for both i.i.d and Markov processes. It also presents state-of-the-art realization theory for hidden Markov models. Among biological applications, it offers an in-depth look at the BLAST (Basic Local Alignment Search Technique) algorithm, including a comprehensive explanation of the underlying theory. Other applications such as profile hidden Markov models are also explored.

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