JKCI - Journal of the Korea Concrete Institute

1

Abouhamad, M., Dawood, T., Jabri, A., Alsharqawi, M., and Zayed, T. (2017) Corrosiveness Mapping of Bridge Decks Using Image-based Analysis of GPR Data. Automation in Construction 80, 104-117.

2

Ahn, Y., Choi, Y., Jang, H., Lee, D., Jang, H., and Shin, C. (2024) Full-Waveform Inversion of Ground-Penetrating Radar Data for Deterioration Assessment of Reinforced Concrete Bridge. Journal of the Korean Geo-Environmental Society 25(2), 5-14. (In Korean)

3

Barnes, C., and Trottier, J-F. (2004) Effectiveness of Ground Penetrating Radar in Predicting Deck Repair Quantities. Journal of Infrastructure Systems 10(2), 69-76.

4

Bavusi, M., Soldovieri, F., Di Napoli, R., Loperte, A., Di Cesare, A, Ponzo, F. C., and Lapenna, V. (2011) Ground Penetrating Radar and Microwave Tomography 3D Applications for the Deck Evaluation of the Musmeci Bridge in Potenza, Italy. Journal of Geophysics and Engineering 8(3), S33-S46.

5

Beben, D., Mordak, A., and Anigacz, W. (2012) Identification of Viaduct Beam Parameters Using the Ground Penetrating Radar (GPR) Technique. NDT and E International 49, 18-26.

6

Darmawan, M. S., and Stewart, M. G. (2007) Spatial Time- dependent Reliability Analysis of Corroding Pretensioned Prestressed Concrete Bridge Girders. Structural Safety 29(1), 16-31.

7

Diamanti,, N. Annan, A. P., and Redman J. D. (2017) Concrete Bridge Deck Deterioration Assessment Using Ground Penetrating Radar (GPR). Journal of Environmental and Engineering Geophysics 22(2), 121-132.

8

Dinh, K., Gucunski, N., and Duong, T. H. (2018) An Algorithm for Automatic Locatlization and Detection of Rebars from GPR Data of Concrete Bridge Decks. Automation in Construction 89, 292-298.

9

Fornasari, G., Capozzoli, L., and Rizzo, E. (2023) Combined GPR and Self-potential Techniques for Monitoring Steel Rebar Corrosion in Reinforced Concrete Structures: A Laboratory Study. Remote Sensing 15(8), 2206.

10

Giannopoulos, A., Macintyre, P., Rodgers, S., and Forde, M. C. (2002) GPR detection of Voids in Post-tensioned Concrete Bridge Beams. In 9th International Conference on Ground Penetrating Radar, Santa Barbara 29 April-02 May 2002.

11

He, R., and Lu, N. (2023) Unveiling the Dielectric Property Change of Concrete during Hardening Process by Ground Penetrating Radar with the Antenna Frequency of 1.6 GHz and 2.6 GHz. Cement and Concrete Composites 144, 105279.

12

He, R., Nantung T., Olek J., and Lu, N. (2023) Field Study of the Dielectric Constant of Concrete: A Parameter Less Sensitive to Environmental Variations than Electrical Resistivity. Journal of Building Engineering 74, 106938.

13

Hugenschmidt, J., and Mastrangelo, R. (2006) GPR Inspection of Concrete Bridges. Cement and Concrete Composites 28(4), 384-392.

14

Hugenschmidt, J., Wenk, F., and Brühwiler, E. (2014) GPR Chloride Inspection of a RC Bridge Deck Slab Followed by an Examination of the Results. In 15th International Conference on Ground Penetrating Radar, Brussels 30 June-04 July 2014.

15

Jazayeri, S., Kruse, S., Hasan, I., and Yazdani, N. (2019) Reinforced Concrete Mapping Using Full-waveform Inversion of GPR Data. Construction and Building Materials 229, 117102.

16

Jol, H. M. (2009) Ground Penetrating Radar Theory and Applications. 1st edition. Netherland, Amsterdam: Elsevier.

17

KALIS (2023) Statistics Yearbook of 2022 Construction Infrastructure Safety. Korea Authority of Land and Infrastructure Safety (KALIS). (In Korean)

18

KATS (2008) Testing Method for Rebound Number to Conclude Compressive Strength of Concrete (KS F 2730). Seoul, Korea: Korea Agency for Technology and Standards (KATS), Korea Standard Association (KSA). (In Korean)

19

KATS (2023) Testing Method for Velocity of Ultrasonic Pulses to Conclude Compressive Strength of Concrete (KS F 2731). Seoul, Korea: Korea Agency for Technology and Standards (KATS), Korea Standard Association (KSA). (In Korean)

20

KICT (2023) Yearbook of Road Bridge and Tunnel Statistics. Ministry of Land, Infrastructure and Transport (MOLIT). (In Korean)

21

La, H. M., Gucunski, N., Kee, S-H., and Nguyen, L. V. (2015) Data Analysis and Visualization for the Bridge Deck Inspection and Evaluation Robotic System. Visualization in Engineering 3, 6.

22

Lai, W. L, Kou, S. C., Tsang, W. F., and Poon, C. S. (2009) Characterization of Concrete Properties from Dielectric Properties Using Ground Penetrating Radar. Cement and Concrete Research 39, 687-695.

23

Lee, T., Choi, H., and Kang, S-M. (2022a) Development of a GPR Imaging Algorithm to Detect Void-like defects in reinforced concrete elements. Journal of the Korean Society for Nondestructive Testing 42(4), 302-309. (In Korean)

24

Lee, T., Kang, M., Choi, M., Jung, S-E., and Choi, H. (2022b) Development of Thickness Measurement Method from Concrete Slab Using Ground Penetrating Radar. Journal of the Korea Institute for Structural Maintenance and Inspection 26(3), 39-47. (In Korean)

25

Lei, W., Hou, F., Xi, J., Tan, Q., Xu, M., Jiang, X., Liu, G., and Gu, Q. (2019) Automatic Hyperbola Detection and Fitting in GPR B-scan Image. Automation in Construction 106, 102839.

26

Li, X., Liu, H., Zhou, F., Chen, Z., Giannkis, I., and Slob E. (2022) Deep Learning-based Nondestructive Evaluation of Reinforcement Bars Using Ground-penetrating Radar and Electromagnetic Induction Data. Computer-Aided Civil and Infrastructure Engineering 37(14), 1843-1853.

27

Ling, T., He, W., Zhang, S., Liu, X., Huang, F., and Liu, W. (2022) A New Method for Measuring the Relative Dielectric Constant of Porous Mixed Media Using GPR, and Its Application. Construction and Building Materials 353, 129042.

28

Liu, H., Lin, C., Cui, J., Fan, L., Xie, X., and Spencer B. F. (2020) Detection and Localization of Rebar in Concrete by Deep Learning Using Ground Penetrating Radar. Automation in Construction 118, 103279.

29

Martino, N., Maser, K., Birken, R., and Wang, M. (2014) Determining Ground Penetrating Radar Amplitude Thresholds for the Corrosion State of Reinforced Concrete Bridge Decks. Journal of Environmental and Engineering Geophysics 19(3), 175-181.

30

Mazzatura, I., Salvatore W., Caprili, S., Celati, S., Mori M., and Gammino, M. (2023) Damage Detection, Localization, and Quantification for Steel Cables of Post-tensioned Bridge Decks. Structures 57, 105314.

31

Morris, I. M., Kumar, V., and Glisic, B. (2021) Predicting Material Properties of Concrete from Ground-penetrating Radar Attributes. Structural Health Monitoring 25(5), 2719-2812.

32

Nawoo (2018) Procep GPR live. Switzerland: Proceq. https://www.nawoo.com/wp-content/uploads/2021/01/Proceq-GPR-Live_product-presentation-MVP3_kr.pdf. Accessed April 2018. (In Korean)

33

Pailes, B. M., and Gucunski, N. (2015) Understanding Multi- modal Non-destructive Testing Data through the Evaluation of Twelve Deteriorating Reinforced Concrete Bridge Decks. Journal of Nondestructive Evaluation 34, 30.

34

Pashoutani S., and Zhu, J. (2023) Real Depth-correction in Ground Penetrating RADAR Data Analysis for Bridge Deck Evaluation. Sensors 23(2), 1027.

35

Rahman, M. A., and Zayed, T. (2016) Developing Corrosion Maps of RC Bridge Elements Based on Automated Visual Image Analysis. In 2016 Transportation Association of Canada Conference and Exhibition, Toronto 25-28 September 2016.

36

Rathod, H., Debeck, S., Gupta, R., and Chow, B. (2019) Applicability of GPR and a Rebar Detector to Obtain Rebar Information of Existing Concrete Structures. Case Studies in Construction Materials 11, e00240.

37

Rhee, J., Shim, J., Lee, S., and Lee, K-H. (2020b) A Consideration on the Electromagnetic Properties of Road Pavement Using Ground Penetrating Radar (GPR). Journal of the Korean Society of Civil Engineers 40(3), 285-294. (In Korean)

38

Rhee, J-Y., Choi J-J., and Kee, S-H. (2019) Evaluation of the Depth of Deteriorations in Concrete Bridge Decks with Asphalt Overlays Using Air-coupled GPR: A Case Study from a Pilot Bridge on Korean Expressway. International Journal of Concrete Structures and Materials 13, 23.

39

Rhee, J-Y., Park, K-E., Lee K-H., and Kee, S-H. (2020a) A Practical Approach to Condition Assessment of Asphalt-covered Concrete Bridge Decks on Korean Expressways by Dielectric Constant Measurements Using Air-coupled GPR. Sensors 20(9), 2497.

40

Shen, P., Lu, L., He, Y., Wang, F., and Hu, S. (2016) Hydration Monitoring and Strength Prediction of Cement-based Materials Based on the Dielectric Properties. Construction and Building Materials 126, 179-189.

41

Sławski, Ł., Kosno, Ł., and Świt, G. (2016) Evaluation of Precast Pre-post-tensioned Concrete Bridge Beams with the Use of GPR Method. Procedia Engineering 156, 443-450.

42

Sultan, A. A. and Washer G. A. (2018) Reliability Analysis of Ground-penetrating Radar for the Detection of Subsurface Delamination. Journal of Bridge Engineering 23(2), 04017131.

43

Varnavina, A. V., Khamzin, A. K., Torgashov, E. V., Sneed, L. H., Goodwin, B. T., and Anderson, N. A. (2015) Data Acquisition and Processing Parameters for Concrete Bridge Deck Condition Assessment Using Ground-coupled Ground Penetrating Radar: Some Considerations. Journal of Applied Geophysics 114, 123-133.

44

Wong, P. T-w., and Lai, W. W-i. (2022) Characterization of Complex Dielectric Permittivity of Concrete by GPR Numerical Simulation and Spectral Analysis. Journal of Nondestructive Evaluation 41, 1.

45

Yehia, S., Abudayyeh, O., Abdel-Qader, I., and Zalt, A. (2008) Ground-penetrating Radar, Chain Drag, and Ground Truth: Correlation of Bridge Deck Assessment Data. Transportation Research Record: Journal of the Transportation Research Board 2044(1), 39-58.

46

Yoon, I-S., Kang T. H. K., and Shin H-Y. (2019) Evaluation of Corrosion Prevention System of Strands for PSC Structures. Journal of the Korea Concrete Institute 31(6), 557-565. (In Korean)

JKCIJournal of
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Journal of the Korea Concrete Institute

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JKCIJournal ofthe Korea Concrete Institute