Yen-Chen Chiu scite author profile

Yen-Chen Chiu

3Publications

21Citation Statements Received

31Citation Statements Given

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National Sun Yat-sen University

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Gesture Sensing Using Retransmitted Wireless Communication Signals Based on Doppler Radar Technology

Wang

Tang

Chiu

et al. 2015

IEEE Trans. Microwave Theory Techn.

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This paper presents a Doppler radar based on an injection-locked quadrature receiver (ILQR) architecture that can use the wireless communication signals from an input cable or an antenna to perform gesture sensing at a short distance. Since the proposed radar does not require an illumination source, radio interference does not occur. To study parametrically the effect of the signal parameters on radar detection performance, a simulation was carried out by modeling the radar system in the discrete-time domain, and the results were verified experimentally using an ac- tuator. In demonstrated applications, the radar uses an input 20 MHz Long-Term Evolution (LTE) signal or captures an ambient Wi-Fi signal to detect several gestures quite successfully.Index Terms-Doppler radar, gesture sensor, injection locking, injection-locked quadrature receiver, injection pulling, radio interference, Wi-Fi radar, wireless communication signal.

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Chest-Worn Health Monitor Based on a Bistatic Self-Injection-Locked Radar

Wang

Chou

Chiu

et al. 2015

IEEE Trans. Biomed. Eng.

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This paper presents wearable health monitors that are based on continuous-wave Doppler radar technology. To achieve low complexity, low power consumption, and simultaneous wireless transmission of Doppler information, the radar architecture is bistatic with a self-injection-locked oscillator (SILO) tag and an injection-locked oscillator (ILO)-based frequency demodulator. In experiments with a prototype that was operated in the medical body area network and the industrial scientific and medical bands from 2.36 to 2.484 GHz, the SILO tag is attached to the chest of a subject to transform the movement of the chest due to cardiopulmonary activity and body exercise into a transmitted frequency-modulated wave. The tag consumes a very low power of 4.4 mW. The ILO-based frequency demodulator, located 30 cm from the subject, receives and processes this wave to yield the waveform that is associated with the movement of the chest. Following further digital signal processing, the cardiopulmonary activity and body exercise are displayed as time-frequency spectrograms. Promisingly, the experimental results that are presented in this paper reveal that the proposed health monitor has high potential to integrate a cardiopulmonary sensor, a pedometer, and a wireless transmission device on a single radar platform.

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Chest-worn health monitor based on a bistatic self-injection-locked radar

Wang

Chou

Chiu

et al. 2015

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Yen-Chen Chiu

Gesture Sensing Using Retransmitted Wireless Communication Signals Based on Doppler Radar Technology

Chest-Worn Health Monitor Based on a Bistatic Self-Injection-Locked Radar

Chest-worn health monitor based on a bistatic self-injection-locked radar

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