Your search keyword '"Fuming Chen"' showing total 3 results

1. Detection of the Vibration Signal from Human Vocal Folds Using a 94-GHz Millimeter-Wave Radar

Author

Jianqi Wang, Sheng Li, Yang Zhang, and Fuming Chen

Subjects

Engineering, coherence analysis, Acoustics, Doppler radar, 02 engineering and technology, Vocal Cords, lcsh:Chemical technology, auto-correlation function, 01 natural sciences, Biochemistry, Signal, Vibration, Article, Analytical Chemistry, law.invention, Radar engineering details, Phonation, law, 0103 physical sciences, 0202 electrical engineering, electronic engineering, information engineering, medicine, Humans, lcsh:TP1-1185, Electrical and Electronic Engineering, Radar, radar measurement, vocal folds, voice activity detection, vibration signal detection, 010301 acoustics, Instrumentation, Noise (signal processing), business.industry, 020206 networking & telecommunications, Atomic and Molecular Physics, and Optics, medicine.anatomical_structure, Vocal folds, Voice, Spectrogram, business

Abstract

The detection of the vibration signal from human vocal folds provides essential information for studying human phonation and diagnosing voice disorders. Doppler radar technology has enabled the noncontact measurement of the human-vocal-fold vibration. However, existing systems must be placed in close proximity to the human throat and detailed information may be lost because of the low operating frequency. In this paper, a long-distance detection method, involving the use of a 94-GHz millimeter-wave radar sensor, is proposed for detecting the vibration signals from human vocal folds. An algorithm that combines empirical mode decomposition (EMD) and the auto-correlation function (ACF) method is proposed for detecting the signal. First, the EMD method is employed to suppress the noise of the radar-detected signal. Further, the ratio of the energy and entropy is used to detect voice activity in the radar-detected signal, following which, a short-time ACF is employed to extract the vibration signal of the human vocal folds from the processed signal. For validating the method and assessing the performance of the radar system, a vibration measurement sensor and microphone system are additionally employed for comparison. The experimental results obtained from the spectrograms, the vibration frequency of the vocal folds, and coherence analysis demonstrate that the proposed method can effectively detect the vibration of human vocal folds from a long detection distance.

Published

2017

2. Detection of the Vibration Signal from Human Vocal Folds Using a 94-GHz Millimeter-Wave Radar

Author

Fuming Chen, Sheng Li, and Yang Zhang

Subjects

VOICE disorders, VOCAL cord diseases, DOPPLER radar, VIBRATION (Mechanics), HILBERT-Huang transform, DIAGNOSIS

Abstract

The detection of the vibration signal from human vocal folds provides essential information for studying human phonation and diagnosing voice disorders. Doppler radar technology has enabled the noncontact measurement of the human-vocal-fold vibration. However, existing systems must be placed in close proximity to the human throat and detailed information may be lost because of the low operating frequency. In this paper, a long-distance detection method, involving the use of a 94-GHz millimeter-wave radar sensor, is proposed for detecting the vibration signals from human vocal folds. An algorithm that combines empirical mode decomposition (EMD) and the auto-correlation function (ACF) method is proposed for detecting the signal. First, the EMD method is employed to suppress the noise of the radar-detected signal. Further, the ratio of the energy and entropy is used to detect voice activity in the radar-detected signal, following which, a short-time ACF is employed to extract the vibration signal of the human vocal folds from the processed signal. For validating the method and assessing the performance of the radar system, a vibration measurement sensor and microphone system are additionally employed for comparison. The experimental results obtained from the spectrograms, the vibration frequency of the vocal folds, and coherence analysis demonstrate that the proposed method can effectively detect the vibration of human vocal folds from a long detection distance. [ABSTRACT FROM AUTHOR]

Published

2017

3. A Method for Remotely Sensing Vital Signs of Human Subjects Outdoors.

Author

Chuantao Li, Fuming Chen, Jingxi Jin, Hao Lv, Sheng Li, Guohua Lu, and Jianqi Wang

Subjects

DOPPLER radar, VITAL signs, REMOTE sensing by radar, ACCIDENT victims, RESPIRATION

Abstract

After chemical or nuclear leakage or explosions, finding survivors is a huge challenge. Although human bodies can be found by smart vehicles and drones equipped with cameras, it is difficult to verify if the person is alive or dead this way. This paper describes a continuous wave radar sensor for remotely sensing the vital signs of human subjects. Firstly, a compact and portable 24 GHz Doppler radar system is designed to conduct non-contact detection of respiration signal. Secondly, in order to improve the quality of the respiration signals, the self-correlation and adaptive line enhancer (ALE) methods are proposed to minimize the interferences of any moving objects around the human subject. Finally, the detection capabilities of the radar system and the signal processing method are verified through experiments which show that human respiration signals can be extracted when the subject is 7 m away outdoors. The method provided in this paper will be a promising way to search for human subjects outdoors. [ABSTRACT FROM AUTHOR]

Published

2015