An, Y.K., Sohn, H. (2012), Integrated Impedance and Guided Wave based Damage Detection.,
Mechanical Systems and Signal Processing, Elsevier, 28, 50-62.
Chen, P.W., Chung, D.D.L. (1993), Carbon fiber reinforced concrete for smart structures
capable of non-destructive flaw detection., Smart Materials and Structures, Elsevier,
2, 22-30.
Gowers, K., Millard, S. (1999), Measurement of Concrete Resistivity for Assessment
of Corrosion., ACI Materials Journal, 96-M66.
Han, B., Ding, S., Yu, X. (2015), Intrinsic self-sensing concrete and structures.,
Measurement, Elsevier, 59, 110-128.
Jingyao, C., Chung, D.D.L. (2004), Electric polarization and depolarization in cement-based
materials, studied by apparent electrical resistance measurement., Cement and Concrete
Research, Elsevier, 34, 481-485.
Kazuro, K., Hideaki, M., Isamu, O., Makoto, K., Keiichi, N., Yuichi, M., Fumio, M.
(2005), Acoustic emission monitoring of a reinforced concrete structure by applying
new fiber-optic sensors., Smart Materials and Structures, Elsevier, 14(3), 52-59.
Kim, D.J., Park, S.H., Ryu, G.S., Koh, K.T. (2011), Comparative flexural behavior
of hybrid ultra high performance fiber reinforced with different macro fibers., Construction
and Building Materials, Elsevier, 25(11), 4144-4155.
Koch, C., German, Paal S (2016), Achievements and Challenges in Machine Vision-Based
Inspection of Large Concrete Structures., Advances in Structural Engineering, SAGE
journals, 17, 3-10.
Lataste, J. F., Behloul, M., Breysse, D. (2008), Characterisation of fibers distribution
in a steel fiber reinforced concrete with electrical resistivity measurements., NDT
& E International, Elsevier, 41(8), 638-647.
Lataste, J. F., Sirieix, C., Breysse, D., Frappa, M. (2003), Electrical resistivity
measurement applied to cracking assessment on reinforced concrete structures in civil
engineering., NDT & E International, Elsevier, 36(6), 383-394.
Lecompte, D., Vantomme, J., Sol, H. (2006), Crack detection in a concrete beam using
two different camera techniques, Structural Health Monitoring., J-Stage, 5(1), 59-68.
Lee, S.J., Sohn, H. (2006), Active self-sensing scheme development for structural
health monitoring., Smart Materials and Structures, Elsevier, 15, 1734-1746.
Meehan, D. G., Wang, S., Chung, D. D. L. (2010), Electrical resistance based sensing
of impact damage in carbon fiber reinforced cement-based materials., Journal of Intelligent
Material Systems and Structures, SAGE journals, 21(1), 83-105.
Metni, N., Hamel, T. (2006), A UAV for bridge inspection: Visual servoing control
law with orientation limits., Automation in Construction, Elsevier, 17, 3-10.
Park, S.H., Kim, D.J., Ryu, G.S., Koh, K.T. (2011), Tensile behavior of Ultra High
Performance Hybrid Fiber Reinforced Concrete., Cement and Concrete Composites, Elsevier,
34(2), 172-184.
Song, J., Nguyen, D. L., Manathamsombat, C. (2015), Effect of fiber volume content
on electromechanical behavior of strain-hardening steel-fiber-reinforced cementitious
composites., Journal of Composite Materials, SAGE Journals, 49(29), 3621-3634.
Song, P.S., Hwang, S. (2004), Mechanical properties of high-strength steel fiber-reinforced
concrete., Construction and Building Materials, Elsevier, 18, 669-673.
Verstrynge, E., Pfeiffer, H., Wevers, M. (2014), A novel technique for acoustic emission
monitoring in civil structures with global fiber optic sensors., Smart Materials and
structures, Elsevier, 23(6), 1-9.
Wen, S., Chung, D.D.L. (2007), Electrical resistance based damage self-sensing in
carbon fiber reinforced cement., Carbon, Elsevier, 45(4), 710-716.
Yang, Y., Hu, Y. (2008), Sensitivity of PZT impedance sensors for damage detection
of concrete structures., Sensors, MDPI, 8(1), 327-346.