Shun-Yee Liu scite author profile

Shun-Yee Liu

5Publications

60Citation Statements Received

9Citation Statements Given

How they've been cited

269

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Affiliations

Hong Kong Polytechnic University

Publications

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Fiber Bragg grating sensors for structural and railway applications

Tam

Liu

Guan

et al. 2005

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Historically, due to the high cost of optical devices, fiber-optics sensor systems were only employed in niche areas where conventional electrical sensors are not suitable. This scenario changed dramatically in the last few years following the explosion of the Internet which caused the rapid expansion of the optical fiber telecommunication industry and substantially driven down the cost of optical components. In recent years, fiber-optic sensors and particularly fiber Bragg grating (FBG) sensors have attracted a lot of interests and are being used in numerous applications. We have conducted several field trials of FBG sensors for railway applications and structural monitoring. About 30 FBG sensors were installed on the rail tracks of KowloonCanton Railway Corp. for train identification and speed measurements and the results obtained show that FBG sensors exhibit very good performance and could play a major role in the realization of "Smart Railway". FBG sensors were also installed on Hong Kong's landmark TsingMa Bridge, which is the world longest suspension bridge (2.2 km) that carries both trains and regular road traffic. The trials were carried out with a high-speed (up to 20 kHz) interrogation system based on CCD and also with a interrogation unit that based on scanning optical filter (up to 70 Hz). Forty FBGs sensors were divided into 3 arrays and installed on different parts of the bridge (suspension cable, rocker bearing and truss girders). The objectives of the field trial on the TsingMa Bridge are to monitor the strain of different parts of the bridge under railway load and highway load, and to compare the FBG sensors' performance with conventional resistive strain gauges already installed on the bridge. The measured results show that excellent agreement was obtained between the 2 types of sensors.

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A Fiber Bragg Grating Sensor System for Train Axle Counting

et al. 2010

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Railway signaling facilitates two main functions, namely, train detection and train control, in order to maintain safe separations among the trains. Track circuits are the most commonly used train detection means with the simple open/close circuit principles; and subsequent adoption of axle counters further allows the detection of trains under adverse track conditions. However, with electrification and power electronics traction drive systems, aggravated by the electromagnetic interference in the vicinity of the signaling system, railway engineers often find unstable or even faulty operations of track circuits and axle counting systems, which inevitably jeopardizes the safe operation of trains. A new means of train detection, which is completely free from electromagnetic interference, is therefore required for the modern railway signaling system. This paper presents a novel optical fiber sensor signaling system. The sensor operation, field setup, axle detection solution set, and test results of an installation in a trial system on a busy suburban railway line are given. A new means of train detection, which is completely free from electromagnetic interference, is therefore required for the modern railway signaling system. This paper presents a novel optical fiber sensor signaling system. The sensor operation, field setup, axle detection solution set, and test results of an installation in a trial system on a busy suburban railway line are given.

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Fiber Bragg Grating Sensors: Recent Advancements, Industrial Applications and Market Exploitation

Cusano¹,

Cutolo²,

Albert³

et al. 2011

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The book is an exciting source of information for individuals interested in learning about and marketing sensors. The book focuses on scientific and commercial advances in Fiber Bragg Grating (FBG) sensor technology since its discovery over 30 years ago. Discussions on new FBG sensor manufacturing and processing methods are provided by leading experts in the field. Novel applications of FBG sensor technology in engineering, energy, chemical and biological sectors are also included along with a clear identification of commercial opportunities in the next decade.

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Growth of long-period gratings in H₂-loaded fiber after 193-nm UV inscription

Guan

Tam

et al. 2000

IEEE Photon. Technol. Lett.

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Intelligent Optical Fibre Sensing Networks Facilitate Shift to Predictive Maintenance in Railway Systems

Tam

Lee

Liu

et al. 2018

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Shun-Yee Liu

Fiber Bragg grating sensors for structural and railway applications

A Fiber Bragg Grating Sensor System for Train Axle Counting

Fiber Bragg Grating Sensors: Recent Advancements, Industrial Applications and Market Exploitation

Growth of long-period gratings in H₂-loaded fiber after 193-nm UV inscription

Intelligent Optical Fibre Sensing Networks Facilitate Shift to Predictive Maintenance in Railway Systems

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Shun-Yee Liu

Fiber Bragg grating sensors for structural and railway applications

A Fiber Bragg Grating Sensor System for Train Axle Counting

Fiber Bragg Grating Sensors: Recent Advancements, Industrial Applications and Market Exploitation

Growth of long-period gratings in H2-loaded fiber after 193-nm UV inscription

Intelligent Optical Fibre Sensing Networks Facilitate Shift to Predictive Maintenance in Railway Systems

Contact Info

Product

Resources

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Growth of long-period gratings in H₂-loaded fiber after 193-nm UV inscription