探索智能手机 MEMS 传感器在经济高效地估算旋转机械速度方面的潜力

IF 1.6 4区 工程技术 Q3 INSTRUMENTS & INSTRUMENTATION
Anuj Kumar Goel, V.N.A. Naikan
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引用次数: 0

摘要

目的本研究旨在探索如何使用嵌入式智能手机的微机电传感器(MEMS)来准确估算旋转机械的速度,这对各种状态监测任务至关重要。旋转机械(RM)在各种应用中发挥着至关重要的作用,需要精确的速度估算,这对振动分析、效率评估和预测评估等状态监测(CM)任务至关重要。在三个测试设置中进行了一系列实验,将基于智能手机的速度估算与传统方法进行了比较。严格的测试横跨多个维度,包括数据可用性有限的场景、不同的速度应用以及智能手机在 RM 表面的不同位置。无论智能手机放置在金属和纤维等表面上的位置如何,MEMS 都能准确估算出速度,结果令人满意,最大误差仅为 6 RPM。使用双样本 t 检验进行统计分析,将智能手机得出的速度结果与转速计和高质量 (HQ) 数据采集系统得出的结果进行了比较。研究局限性/意义研究局限性包括需要进一步调查智能手机传感器在极高速情况下的校准和准确性。社会影响社会影响巨大,为各行各业提供了具有成本效益的 CM,并鼓励进一步探索基于 MEMS 的振动监测。该研究的多维测试凸显了其在解决数据有限和各种速度应用场景方面的独创性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Exploring the potential of smartphone MEMS sensors for cost-effective rotating machinery speed estimation

Purpose

The purpose of this study is to explore the use of smartphone-embedded microelectro-mechanical sensors (MEMS) for accurately estimating rotating machinery speed, crucial for various condition monitoring tasks. Rotating machinery (RM) serves a crucial role in diverse applications, necessitating accurate speed estimation essential for condition monitoring (CM) tasks such as vibration analysis, efficiency evaluation and predictive assessment.

Design/methodology/approach

This research explores the utilization of MEMS embedded in smartphones to economically estimate RM speed. A series of experiments were conducted across three test setups, comparing smartphone-based speed estimation to traditional methods. Rigorous testing spanned various dimensions, including scenarios of limited data availability, diverse speed applications and different smartphone placements on RM surfaces.

Findings

The methodology demonstrated exceptional performance across low and high-speed contexts. Smartphones-MEMS accurately estimated speed regardless of their placement on surfaces like metal and fiber, presenting promising outcomes with a mere 6 RPM maximum error. Statistical analysis, using a two-sample t-test, compared smartphone-derived speed outcomes with those from a tachometer and high-quality (HQ) data acquisition system.

Research limitations/implications

The research limitations include the need for further investigation into smartphone sensor calibration and accuracy in extremely high-speed scenarios. Future research could focus on refining these aspects.

Social implications

The societal impact is substantial, offering cost-effective CM across various industries and encouraging further exploration of MEMS-based vibration monitoring.

Originality/value

This research showcases an innovative approach using smartphone-embedded MEMS for RM speed estimation. The study’s multidimensional testing highlights its originality in addressing scenarios with limited data and varied speed applications.

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来源期刊
Sensor Review
Sensor Review 工程技术-仪器仪表
CiteScore
3.40
自引率
6.20%
发文量
50
审稿时长
3.7 months
期刊介绍: Sensor Review publishes peer reviewed state-of-the-art articles and specially commissioned technology reviews. Each issue of this multidisciplinary journal includes high quality original content covering all aspects of sensors and their applications, and reflecting the most interesting and strategically important research and development activities from around the world. Because of this, readers can stay at the very forefront of high technology sensor developments. Emphasis is placed on detailed independent regular and review articles identifying the full range of sensors currently available for specific applications, as well as highlighting those areas of technology showing great potential for the future. The journal encourages authors to consider the practical and social implications of their articles. All articles undergo a rigorous double-blind peer review process which involves an initial assessment of suitability of an article for the journal followed by sending it to, at least two reviewers in the field if deemed suitable. Sensor Review’s coverage includes, but is not restricted to: Mechanical sensors – position, displacement, proximity, velocity, acceleration, vibration, force, torque, pressure, and flow sensors Electric and magnetic sensors – resistance, inductive, capacitive, piezoelectric, eddy-current, electromagnetic, photoelectric, and thermoelectric sensors Temperature sensors, infrared sensors, humidity sensors Optical, electro-optical and fibre-optic sensors and systems, photonic sensors Biosensors, wearable and implantable sensors and systems, immunosensors Gas and chemical sensors and systems, polymer sensors Acoustic and ultrasonic sensors Haptic sensors and devices Smart and intelligent sensors and systems Nanosensors, NEMS, MEMS, and BioMEMS Quantum sensors Sensor systems: sensor data fusion, signals, processing and interfacing, signal conditioning.
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