Angle Sensor Module for Vehicle Steering Device Based on Multi-Track Impulse Ring

Woo, Seong Tak; Park, Young Bin; Han, Chun Soo; Na, Sungdae; Kim, Ju Young

doi:10.3390/s19030526

Cited by 8 publications

(4 citation statements)

References 17 publications

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“…The fabricated impulse ring has 104–212 square waveforms at a rotation speed of about 8–17 Hz, so the channel for RPM detection is sufficient. Impulse rings were fabricated using ferrite (89.7%), NBR rubber (10%), and SUS304 stainless steel (0.03%) based on the simulation . The impulse rings were 18 mm in outer diameter, 10 mm in inner diameter, and 3.4 mm in height.…”

Section: Methodsmentioning

confidence: 99%

Implementation and evaluation of motion detection module based on hall sensors for the geared motor of automatic gate

Woo

2019

IEEJ Transactions Elec Engng

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The use of geared motor modules, installed in automatic doors to optimize the stability, efficiency, and manufacturing costs related to automatic door opening and closing, has been attracting scientific attention. Generally, signal processing and the sensor circuit board inserted in the geared motor have been widely used in optical systems. However, the optical system is disadvantageous in that it is susceptible to external shock, humidity, and dust. In this article, a magnetic impulse ring-based motion detection circuit board simpler in structure than the existing optical systems, having excellent durability against external environments, and can be miniaturized is proposed. Experimental results show that the proposed module based on Hall sensor has RPM (revolution per minute) detection characteristics more than 6 dB better than conventional optical module. Also, the proposed module has about 14 dB excellent power consumption than existing optical modules, thus its applicability is confirmed.

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Section: Methodsmentioning

confidence: 99%

Implementation and evaluation of motion detection module based on hall sensors for the geared motor of automatic gate

Woo

2019

IEEJ Transactions Elec Engng

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“…However, the steering control could have been further improved by also introducing longitudinal control. An improved TAS module-based vehicle steering control has been proposed in Woo et al 6 to improve the state-of-the-art TAS module with a fewer number of physical components and has shown increased performance with minimum angle estimation error as compared to the previous steering angle modules. However, they did not consider the utilization of the steering angle module in steering automation of the customized autonomous logistic vehicles.…”

Section: Related Workmentioning

confidence: 99%

“…5 In another research work, GNSS and the gyroscope-based mechanism is presented to determine the steering angle by taking two parameters (rate of heading inclination and acceleration rate) into account using Kalman filter. 6 Though, these relative angle sensors have improved the accuracy by reducing the additive bias in the estimated steering angle. However, the GNSS/gyroscope based steering angle measurement systems are much reliant on the satellite data which have signal spoofing, precision, and jamming concerns.…”

Section: Introductionmentioning

confidence: 99%

“…[7][8][9][10] Moreover, the TAS/electro-magnet based steering angle sensors return distorted signals when their positive and negative phase shafts switch arbitrarily which leads to continuous error in estimated steering angle. 11 Besides, the researchers [5][6][7][8][9][10][11] have not presented any scheme for the practical implementation of these sensors in the steering automation of customized self-driving vehicles.…”

Section: Introductionmentioning

confidence: 99%

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Micro-electromechanical system based optimized steering angle estimation mechanism for customized self-driving vehicles

Butt

Riaz

Khalid

et al. 2021

Measurement and Control

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In an automated steering system of the self-driving vehicles, the steering wheel angle is measured by the absolute angular displacement sensors or relative angle sensors. However, these sensors either encompass global navigation satellite systems (GNSS)/gyroscope – Micro Electromechanical-Sensor (MEMS) based solutions or comprise of the complex gear-based mechanical structure which results in latency and additive bias in the accumulative steering angle assessment. To address these issues, we propose a novel steering angle assessment system based on enhanced gear mechanism along with the adapted rotation paradigm for the customized self-driving vehicles. Additionally, a digital signal processing system has been introduced to resolve the issues in the identification of absolute central and max-bounding steering wheels position in self-driving vehicles. In assistance with the proposed mechanism, an algorithm has also been proposed to optimize the computed steering angle to minimalize the effect of additive bias in the accuracy. The proposed mechanism has been installed in the customized self-driving testbed vehicle and rigor validation has been performed in the straight and curvy road scenarios. Finally, the comparison study has been carried out between the conventional relative sensor and the proposed mechanism to show the accuracy and effectiveness of the proposed mechanism in terms of error rate, stability, and deviation.

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Design of Robotic Manipulator and Its Control Techniques

Hegde,

Rai,

Kumar

et al. 2024

Advances in Science, Technology &Amp; Innovation

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Angle Sensor Module for Vehicle Steering Device Based on Multi-Track Impulse Ring

Cited by 8 publications

References 17 publications

Implementation and evaluation of motion detection module based on hall sensors for the geared motor of automatic gate

Implementation and evaluation of motion detection module based on hall sensors for the geared motor of automatic gate

Micro-electromechanical system based optimized steering angle estimation mechanism for customized self-driving vehicles

Design of Robotic Manipulator and Its Control Techniques

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