JKSMI
Journal of the Korea Institute for
Structural Maintenance and Inspection
KSMI
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ISSN : 2234-6937 (Print)
ISSN : 2287-6979 (Online)
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Journal of the Korea Concrete Institute
J Korea Inst. Struct. Maint. Insp.
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Korea Citation Index (KCI)
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2023-10
(Vol.27 No.5)
10.11112/jksmi.2023.27.5.40
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References
1
Bolourani, A., Bitaraf, M., and Tak, A. (2021), Structural health monitoring of harbor caissons using support vector machine and principal component analysis, In Structures, 33, 4501-4513.
2
Broos, E. J. (2010), Design and Construct Contract for a Deep Sea Quay Wall in the Port of Rotterdam: Case study Brammen terminal, TU Delft.
3
Chung, C-H., An, H-Y., Shin S-B., and Kim, Y-H. (2014), Reset of Measurement Control Criteria for Monitoring Data through the Analysis of Measured Data, Journal of the Korea Institute for Structural Maintenance and Inspection, 18(6), 105-113 (in Korean).
4
Chung, T. (2018), Advanced Case Analysis and Implications of a Smart Seaport, Journal of Shipping and Logistics, 34(3), 489-510.
5
den Adel, N. (2018), Load Testing of a Quay Wall: Evaluating the use of load testing by application of Bayesian Updating, Master Thesis, TU Delft.
6
Ghorbani, E., Svecova, D., Thomson, D.J., and Cha, Y-J. (2022), Bridge Pier Scour Level Quantification based on Output-only Kalman Filtering, Structural Health Monitoring, 21(5), 2116-2135.
7
Hou, S., and Wu, G. (2019), A Low-cost IoT-based Wireless Sensor System for Bridge Displacement Monitoring, Smart Materials and Structures, 28(8), 085047
8
Huynh, T. C., Dang, N. L., and Kim, J. T. (2018), PCA-based Filtering of Temperature Effect on Impedance Monitoring in Prestressed Tendon Anchorage, Smart Struct. Syst, 22, 57-70.
9
Jin, S-S., and Jung, H-J. (2018), Vibration-based Damage Detection using Online Learning Algorithm for Output-only Structural Health Monitoring, Structural Health Monitoring, 17(4), 727-746.
10
Jin, S-S., Min, J., Kim, Y-T., and Kim, R. (2023), Development of Online-learning based Adaptive Anomaly Detection Algorithm for Monitoring Data Analysis on Caisson Type Breakwater, Journal of Coastal Disaster Prevention, 10(1), 1-12 (in Korean).
11
Jo, B., Jo, J., Khan, R., Kim, J., and Lee, Y. (2018), Development of a Cloud Computing-based Pier Type Port Structure Stability Evaluation Platform using Fiber Bragg Grating Sensors, Sensors, 18(6), 1681.
12
Joo, B. C., Park, K. T., and Lee, W. S. (2008), Propose standardizing the existing determination method of the management criteria in bridge monitoring system, The Proceeding of KSCE 2008, KSCE, 3329-3332.
13
KCS 64 35 30 (2018), Standard Specification for Port and Fishing Port Construction, Korea (in Korean).
14
Korea Authority of Land and Infrastructure Safety (2020), Optimization of Maintenance Measurement System Using Long- Term Measurement Data, KALIS, Report No. RD-20-R3-002.
15
Korea Institute of Ocean Science and Technology (2014), Performance Evaluation of Interlocking Caisson-Type Breakwaters against Abnormal High Waves, KIOST, Report No. PE99251.
16
Korea Maritime Institute (2018), Smart Port, Need to Establish a Road map Considering the Entire Logistics Network, KMI Trend Analysis, 74 (in Korean).
17
Lee, S., Kim, J., and Kim, H. (2010), Vibration-based Structural Health Monitoring of Caisson-type Breakwaters Damaged on Rubble Mound, Journal of Ocean Engineering and Technology, 24(1), 90-98 (in Korean).
18
Lee, J., Park, W., Lee, S., Kim, J., and Seo, C. (2013), Evaluation of Vibration Characteristics of Caisson-Type Breakwater Using Impact Vibration Tests and Validation of Numerical Analysis Model, Journal of Korean Society Coastal and Ocean Engineers, 25(1), 1-10.
19
Min, J. (2020), Development of Mid long-term Vision and Road Map for Smart Maintenance of Port Facilities, Coastal and Ocean, 10(1), 58-65 (in Korean).
20
Min, J., Jin, S-S., Park, M-S., Kim, Y-T., and Kim, S-T. (2022), Development of Real-time Monitoring Data Analysis Technique for Port Facility, Annual Conference of Korea Institute for Structural Maintenance and Inspection, 26(2), 232 (in Korean).
21
Ministry of Land, Infrastructure and Transport (2018), Detailed guidelines for safety and maintenance of facilities (performance evaluation), in Korean.
22
Minstry of Ocean and Fisheries (2016), Port Facility Management System (POMS).
23
Nguyen, V. H., Schommer, S., Maas, S., and Zurbes, A. (2016), Static Load Testing with Temperature Compensation for Structural Health Monitoring of Bridges, Engineering Structures, 127(15), 700-718.
24
Oh, M., Min, J., and Jeong, S. K. (2022), Trend on the Smart Maintenance Technology for Port Infrastructure, KSCE Magazine, 70(6), 28-36 (in Korean).
25
Rageh, A., Linzell, D. G., and Eftekhar Azam, S. (2018), Automated, Strain-based, Output-only Bridge Damage Detection. Journal of Civil Structural Health Monitoring, 8, 833-846.
26
Schouten, O. (2020), Optimising the functionality of smart quay walls using measurement data obtained during the construction process, Master Thesis, TU Delft.
27
van der Wel, T. (2018), Reliability based Assessment of Quay Walls, Master Thesis, TU Delft.
28
US Army Corps of Engineers (2006), Coastal Engineering Manual.
29
Weng, J-H., Loh, C-H., Lynch, J. P., Lu, K-C., Lin P-Y., and Wang, Y. (2008), Output-only Modal Identification of a Cable-stayed Bridge using Wireless Monitoring Systems, Engineering Structures, 30(7), 1820-1830.
