Recent Trends in Sensor Research & Technology

The structure needs to be monitored after periodic time in its service life. SHM refers to be the
process of implementing a damage detection and characterization strategy for engineering
structures. This helps to lead a cost-effective management and can also help to increase the
service life of the structure. Civil engineering structures pose certain challenges while
monitoring due to its large dimensions and different types of materials. The structural health
monitoring is a term increasingly used in the last decade to describe the range of systems
implemented on full-scale civil infrastructure and whose purpose is to assist and inform
operator about continued 'fitness for purpose' of structure used under various loads. Use of
sensors in structural health monitoring is the advanced method of investigating a civil
engineering structure. In particular, PZT sensors and ADXL 335 sensors can serve as both
actuators and sensors, which make SHM to be active monitoring system. In this study, the
application of sensors for SHM of civil engineering structures is reviewed. The major focus is
on the detection of vibrations on a steel bridge model using sensors.

Bastien Chapuis. Introduction to

Structural Health Monitoring. Springer

International Publishing AG 2018 vol.

-15 (XV-1493-15).

Alberto Dies, Yang Wang. A Clustering

Approach for SHM on Bridges. Springer

International Publishing. 2016 DOI:

1007/s13349-016-0160-0.

Chung-Bang Yun, Lynch Jerome P. Smart

Wireless Sensor Technology for Structural

Health Monitoring of Civil Structure. Steel

Structures. 2008; 8(4): 267–275p.

Brownjohn JMW. Structural Health

Monitoring of Civil Infrastructure.

ResearchGate. 2016. doi:

1098/rsta.2006.1925.

Kavita Kumari, Inderdeep Kaur. Structural

Health Monitoring System Using Wireless

Sensor Networks. ResearchGate. Apr

; 275637649.

Chul woo Kim, Chang KC. Field

Experiment on Steel Girder-Truss Bridge

for Damage Detection Utilizing Vehicles

Induced Vibration. SMAR. 2013.

Vignesh H, Ramamoorthy Gunawathi. A

Review: Structural Health Monitoring in

Wireless Sensor Networks. IJRASET. Jul

; 4(VII): 550–559p.

Fanhao Meng. Damage Detection in

Active Suspension Bridges: Experimental

Investigation. Sensors. Sep 2018; 18(9):

p.

Ye XW, Su YH. Structural Health

Monitoring of Civil Infrastructure Using

Optical Fiber Sensing Technology.

Hindawi. 2014; 2014: ID- 652329.

Goyal D, Pabla BS. The Vibration

Monitoring Methods and Signal

Processing Techniques for SHM. Springer.

Arch Computat Methods Eng. 2016; 23:

–594p. Doi: 10.1007/s11831-015-

Hsieh Kai H (S.M ASCE). Overview of

Vibrational Structural Health Monitoring

with Representative Case Studies. ASCE, J

Bridge Eng. 2006; 11(6): 707p. -1084-

Ahemad A, Kumar Yelamarathi. Internet

of Things (IoT) Platform for Structural

Health Monitoring. Hindawi. 2017; 2017:

ID-6560797.

Lynch Jerome P, Aaron Partridge. Design

of Piezoresistive MEMS-Based

Accelerometer for Integration with

Wireless Sensing Unit for Structural

Monitoring. JAAE@ASCE, MEMS in Civil

Engineering. 2003; 16(3): 108p.