CW Doppler Radar as Occupancy Sensor: A Comparison of Different Detection Strategies

Gennarelli, Gianluca; Colonna, Vittorio Emanuele; Noviello, Carlo; Perna, Stefano; Soldovieri, Francesco; Catapano, Ilaria

doi:10.3389/frsip.2022.847980

Cited by 4 publications

(7 citation statements)

References 26 publications

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“…The research published in recent years on occupancy sensing using Doppler radar indicates that activity and physiological sensing could be used to remotely evaluate occupant response to environmental conditions, which would lead to major changes in HBI. Gennarelli et al 16 achieve an occupancy/vacancy accuracy of greater than 96% by applying standard deviation, histogram and Doppler spectrum energy methods to a continuous wave quadrature Doppler radar for real-time occupancy sensing in indoor environments. Lurz et al 17 emulate human respiration using a metallic plate mounted on a linear stage and demonstrate a human subject at null point still can be detected with a single channel low-power 24 GHz receiver.…”

Section: Literature Reviewmentioning

confidence: 99%

“…While the progress in works cited above is notable, these works have some limitations, such as short experimental duration (up to 60 s for [16][17][18][19][20] ), the inferior sensitivity of passive radar systems for detecting stationary persons 21,22,23 , and detection of stationary persons only at 2-3 m from the sensor 16,17 . The True Presence Occupancy Detection Sensor (TruePODS™) presented in this paper is a Doppler radar-sensor that detects physiological motion to indicate whether a space is occupied or vacant 24 .…”

Section: Literature Reviewmentioning

confidence: 99%

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Unobtrusive occupancy and vital signs sensing for human building interactive systems

Song

Droitcour

Islam

et al. 2023

Sci Rep

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Cognitive buildings use data on how occupants respond to the built environment to proactively make occupant-centric adjustments to lighting, temperature, ventilation, and other environmental parameters. However, sensors that unobtrusively and ubiquitously measure occupant responses are lacking. Here we show that Doppler-radar based sensors, which can sense small physiological motions, provide accurate occupancy detection and estimation of vital signs in challenging, realistic circumstances. Occupancy was differentiated from an empty room over 93% of the time in a 3.4 m × 8.5 m conference room with a single sensor in both wall and ceiling-mounted configurations. Occupancy was successfully detected while an occupant was under the table, visibly blocked from the sensor, a scenario where infrared, ultrasound, and video-based occupancy sensors would fail. Heart and respiratory rates were detected in all seats in the conference room with a single ceiling-mounted sensor. The occupancy sensor can be used to control HVAC and lighting with a short, 1–2 min delay and to provide information for space utilization optimization. Heart and respiratory rate sensing could provide additional feedback to future human-building interactive systems that use vital signs to determine how occupant comfort and wellness is changing with time.

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Section: Literature Reviewmentioning

confidence: 99%

Section: Literature Reviewmentioning

confidence: 99%

Unobtrusive occupancy and vital signs sensing for human building interactive systems

Song

Droitcour

Islam

et al. 2023

Sci Rep

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“…The remote monitoring of vital signs of the radar system is more and more widely used. Radar can detect human presence in indoor environments ( Mercuri et al, 2013 ; Gennarelli et al, 2022 ). Radar can track the periodic movement of body parts caused by breathing, which can be used for system diagnosis of breathing problems such as apnea ( Sun, 2019 ; Islam et al, 2021 ; Ishrak et al, 2023 ).…”

Section: Introductionmentioning

confidence: 99%

“…The radars currently used for vital signs detection include frequency-modulated continuous wave (FMCW) radar ( He et al, 2017 ; Ahmad et al, 2018 ), ultra-wideband (UWB) radar ( Deng et al, 2019 ; Yang et al, 2021 ; Sharma et al, 2023 ), continuous wave (CW) radar ( Hong et al, 2018 ; Gennarelli et al, 2022 ), etc. The FMCW radar has a wide range of applications for continuous non-contact vital sign monitoring in a variety of scenarios.…”

Section: Introductionmentioning

confidence: 99%

A novel target state detection method for accurate cardiopulmonary signal extraction based on FMCW radar signals

Zhang

Yang

Xiao³

et al. 2023

Front. Physiol.

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Frequency-modulated continuous wave radar is capable of constant, real-time detection of human presence and monitoring of cardiopulmonary signals such as respiration and heartbeat. In highly cluttered environments or when the human body moves randomly, noise signals may be relatively large in some range bins, making it crucial to accurately select the range bin containing the target cardiopulmonary signal. In this paper, we propose a target range bin selection algorithm based on a mixed-modal information threshold. We introduce a confidence value in the frequency domain to determine the state of the human target and employ the range bin variance in the time domain to determine the range bin change status of the target. The proposed method accurately detects the state of the target and effectively selects the range bin containing the cardiopulmonary signal with a high signal-to-noise ratio. Experimental results demonstrate that the proposed method achieves better accuracy in cardiopulmonary signal rate estimation. Moreover, the proposed algorithm is lightweight in data processing and has good real-time performance.

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“…To overcome the drawbacks of traditional PIR and US sensors, new technologies, such as hybrid (combining PIR and ultrasound in one sensor) [3], infrared time-of-flight [4], video [5], CO 2 [6], thermopile array [7,8], chair sensors [9], and radar sensors [7,[10][11][12][13][14][15][16] have been in development, with some of them emerging in the market. New approaches to signal processing are also being developed to improve the accuracy of occupancy detection, reduce false-vacancy signals, and add features such as count estimation.…”

Section: Introductionmentioning

confidence: 99%

Characterization Technique for a Doppler Radar Occupancy Sensor

Whitworth,

Droitcour,

Song

et al. 2023

Electronics

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Occupancy sensors are electronic devices used to detect the presence of people in monitored areas, and the output of these sensors can be used to optimize lighting control, heating and ventilation control, and real-estate utilization. Testing methods already exist for certain types of occupancy sensors (e.g., passive infrared) to evaluate their relative performance, allowing manufacturers to report coverage patterns for different types of motion. However, the existing published techniques are mostly tailored for passive-infrared sensors and therefore limited to evaluation of large motions, such as walking and hand movement. Here we define a characterization technique for a Doppler radar occupancy sensor based on detecting a small motion representing human breathing, using a well-defined readily reproducible target. The presented technique specifically provides a robust testing method for a single-channel continuous wave Doppler-radar based occupancy sensor, which has variation in sensitivity within each wavelength of range. By comparison with test data taken from a human subject, we demonstrate that the mobile target provides a reproducible alternative for a human target that better accounts for the impact of sensor placement. This characterization technique enables generation of coverage patterns for breathing motion for single-channel continuous wave Doppler radar-based occupancy sensors.

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CW Doppler Radar as Occupancy Sensor: A Comparison of Different Detection Strategies

Cited by 4 publications

References 26 publications

Unobtrusive occupancy and vital signs sensing for human building interactive systems

Unobtrusive occupancy and vital signs sensing for human building interactive systems

A novel target state detection method for accurate cardiopulmonary signal extraction based on FMCW radar signals

Characterization Technique for a Doppler Radar Occupancy Sensor

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