A Parallel-Phase Demodulation-Based Distance-Measurement Method Using Dual-Frequency Modulation

Jang, In-Gyu; Lee, Sung-Hyun; Park, Yong-Hwa

doi:10.3390/app10010293

Cited by 7 publications

(1 citation statement)

References 27 publications

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“…In direct-ToF, it is usually exploited a pulse signal to modulate the light source. On the other hand, an indirect-ToF method usually utilizes a continuous wave signal for modulating light sources [17], [18].…”

Section: A Working Principle Of Tof Lidarmentioning

confidence: 99%

A Simple and Cost-Effective Physical Distancing Violation Detector Using a Rotating Time of Flight Lidar

Hanto¹,

Adinanta²,

Suryadi³

et al. 2022

International Journal on Advanced Science, Engineering and Information Technology

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In this work, a simple and cost-effective physical distancing violation detector using a commercial lidar has been developed. Our system comprises time of flight (ToF) lidar, mounted a stepper motor to rotate ToF Lidar and range an object on the top. We control a rotation of the stepper motor, record the distance between the object and the ToF Lidar by using a microcontroller, and analyze the measuring data using a computer program. This system can also indirectly estimate the distance between two objects by applying a simple vector operation. This paper successfully detects and evaluates the distance between two dummy objects placed with various configurations. We obtained the estimated distances using our proposed method nearly equal to the actual distances measured manually. In addition, our system has been tested to measure the physical distances among people with three volunteers who stood 200 cm and 80 cm distances in an indoor environment. The experiment results show that the distance between volunteer 1 and volunteer 2 is 186.5 cm and the distance between volunteer 2 and volunteer 3 is 73.0 cm. These indicate our system could provide information whether a safe distance or a risk distance. This research work can help the authorities provide an instrument for reducing contagious diseases, especially COVID-19 pandemic outbreaks, by installing at a fixed location or in portable instrument services.

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Section: A Working Principle Of Tof Lidarmentioning

confidence: 99%

A Simple and Cost-Effective Physical Distancing Violation Detector Using a Rotating Time of Flight Lidar

Hanto¹,

Adinanta²,

Suryadi³

et al. 2022

International Journal on Advanced Science, Engineering and Information Technology

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A Polyester/Polypyrrole Textile‐Based Ultrasensitive Wearable Microdistance Sensor

Chen

Chai

et al. 2021

Macro Materials & Eng

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Microdistance sensor, which can accurately detect the microdistance change, possesses significant applications in the cutting-edge technologies including biomedicine, energy storage, and info-communications. However, the high cost, complicated operation, and stringent testing requirements of the existing microdistance sensors limit their widespread application in the frontier fields, especially for the intelligent wearable electronics. Herein, a novel mechanism to detect microdistance change is developed, in which the external microdistance brings a change in the thickness of conductive textile and further converts into a distinguishable electrical signal. The polyester/polypyrrole (PET/PPy) conductive textile is fabricated via in situ solventless polymerization, and the derived microdistance sensor exhibits an ultrahigh sensitivity of 179 m −1 within the detection region of 10-480 μm, a high resolution up to 5 μm, and good stability. The excellent sensing performance can be attributed to the high elasticity, deformation-recovery property, and 3D network structures of the PET/PPy conductive textile. Furthermore, the wearable sensor is applied to detect the microdistance changes in human and robot activities, providing an efficient and low-cost solution for microdistance detection in intelligent medical, health monitoring system, and biomimetic robot.

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Optical parametric-assist frequency modulation for FMCW Lidar enabling double-range velocity measurement

Zhang,

Xie,

et al. 2024

Optics and Lasers in Engineering

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A Parallel-Phase Demodulation-Based Distance-Measurement Method Using Dual-Frequency Modulation

Cited by 7 publications

References 27 publications

A Simple and Cost-Effective Physical Distancing Violation Detector Using a Rotating Time of Flight Lidar

A Simple and Cost-Effective Physical Distancing Violation Detector Using a Rotating Time of Flight Lidar

A Polyester/Polypyrrole Textile‐Based Ultrasensitive Wearable Microdistance Sensor

Optical parametric-assist frequency modulation for FMCW Lidar enabling double-range velocity measurement

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