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Articles de revues sur le sujet « Structures »

Auteur : Grafiati
Publié le 4 juin 2021
Mis à jour le 25 juillet 2025

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1

Yamasaki, Satoshi, and Kazuhiko Fukui. "2P266 Tertiary structure prediction of RNA-RNA complex structures using secondary structure information(22A. Bioinformatics: Structural genomics,Poster)." Seibutsu Butsuri 53, supplement1-2 (2013): S203. http://dx.doi.org/10.2142/biophys.53.s203_1.

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Smith, Henry E. "Structured Settlements as Structures of Rights." Virginia Law Review 88, no. 8 (2002): 1953. http://dx.doi.org/10.2307/1074013.

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Janoschek, Rudolf. "Structures, Structures, and Structures." Angewandte Chemie International Edition in English 31, no. 3 (1992): 290–92. http://dx.doi.org/10.1002/anie.199202901.

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HORNUNG, Martin, Takahisa DOBA, Rajat AGARWAL, Mark BUTLER, and Olaf LAMMERSCHOP. "Structural Adhesives for Energy Management and Reinforcement of Body Structures." Journal of The Adhesion Society of Japan 44, no. 7 (2008): 258–63. http://dx.doi.org/10.11618/adhesion.44.258.

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Ibrahim, M. K. "Radix-2nmultiplier structures: a structured design methodology." IEE Proceedings E (Computers and Digital Techniques) 140, no. 4 (1993): 185–90. http://dx.doi.org/10.1049/ip-e.1993.0026.

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6

Elyiğit, Belkıs, and Cevdet Emin Ekinci. "A RESEARCH ON STRUCTURAL AND NON-STRUCTURAL DAMAGES AND DAMAGE ASSESSMENT IN REINFORCED CONCRETE STRUCTURES." NWSA Academic Journals 18, no. 2 (2023): 19–42. http://dx.doi.org/10.12739/nwsa.2023.18.2.1a0485.

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7

Zilberman, M., N. D. Schwade, R. S. Meidell, and R. C. Eberhart. "Structured drug-loaded bioresorbable films for support structures." Journal of Biomaterials Science, Polymer Edition 12, no. 8 (2001): 875–92. http://dx.doi.org/10.1163/156856201753113079.

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Kraus, Felix, Ezequiel Miron, Justin Demmerle, et al. "Quantitative 3D structured illumination microscopy of nuclear structures." Nature Protocols 12, no. 5 (2017): 1011–28. http://dx.doi.org/10.1038/nprot.2017.020.

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9

Jie Chen, M. K. H. Fan, and C. N. Nett. "Structured singular values with nondiagonal structures. I. Characterizations." IEEE Transactions on Automatic Control 41, no. 10 (1996): 1507–11. http://dx.doi.org/10.1109/9.539434.

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Jie Chen, M. K. H. Fan, and C. N. Nett. "Structured singular values with nondiagonal structures. II. Computation." IEEE Transactions on Automatic Control 41, no. 10 (1996): 1511–16. http://dx.doi.org/10.1109/9.539435.

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Khalaf, Mohammed M., and Ahmed Elmoasry. " -WEAK STRUCTURES." Indian Journal of Applied Research 4, no. 1 (2011): 351–55. http://dx.doi.org/10.15373/2249555x/jan2014/103.

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Patil, K. S., and Ajit K. Kakade. "Seismic Response of R.C. Structures With Different Steel Bracing Systems Considering Soil - Structure Interaction." Journal of Advances and Scholarly Researches in Allied Education 15, no. 2 (2018): 411–13. http://dx.doi.org/10.29070/15/56856.

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Bhattacharya, Ananyo. "Protein structures: Structures of desire." Nature 459, no. 7243 (2009): 24–27. http://dx.doi.org/10.1038/459024a.

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Aftandiliants, Ye G. "Modelling of structure forming in structural steels." Naukovij žurnal «Tehnìka ta energetika» 11, no. 4 (2020): 13–22. http://dx.doi.org/10.31548/machenergy2020.04.013.

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The study showed that the influence of alloying elements on the secondary structure formation of the steels containing from 0.19 to 0.37 wt. % carbon; 0.82-1.82 silicon; 0.63-3.03 manganese; 1.01-3.09 chromium; 0.005-0.031 nitrogen; up to 0.25 wt.% vanadium and austenite grain size is determined by their change in the content of vanadium nitride phase in austenite, its alloying and overheating above tac3, and the dispersion of ferrite-pearlite, martensitic and bainitic structures is determined by austenite grain size and thermal kinetic parameters of phase transformations. Analytical dependenc
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15

Marsden, Terry, Jonathan Murdoch, and Andrew Flynn. "Regulating Land Development: Local Market Structures and Structured Markets." Rural Sociology 58, no. 4 (2010): 599–625. http://dx.doi.org/10.1111/j.1549-0831.1993.tb00515.x.

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16

Harris, Philip J. "Computer analysis of structures — matrix structural analysis structured programming." Canadian Journal of Civil Engineering 14, no. 6 (1987): 860–61. http://dx.doi.org/10.1139/l87-128.

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17

Harris, Philip J. "Computer analysis of structures — matrix structural analysis structured programming." Canadian Journal of Civil Engineering 14, no. 6 (1987): 863. http://dx.doi.org/10.1139/l87-131.

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18

Buffoni, Giuseppe, and Sara Pasquali. "Structured population dynamics: continuous size and discontinuous stage structures." Journal of Mathematical Biology 54, no. 4 (2006): 555–95. http://dx.doi.org/10.1007/s00285-006-0058-2.

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19

Jeon, Haemin, Jae-Uk Shin, and Hyun Myung. "Incremental displacement estimation of structures using paired structured light." Smart Structures and Systems 9, no. 3 (2012): 273–86. http://dx.doi.org/10.12989/sss.2012.9.3.273.

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20

Patterson, Nat. "INNOVATIVE SEAWALL DESIGN DEVELOPMENT IN NSW, AUSTRALIA: 4 RECENT CASE STUDIES." Coastal Engineering Proceedings, no. 37 (October 2, 2023): 14. http://dx.doi.org/10.9753/icce.v37.structures.14.

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Coastal development is coming under increasing pressure from climate change. Management of erosion hazards essentially involves retreat or protection. Where hard coastal protection structures are selected, the aesthetics and amenity benefit, in addition to the protection functionality, are subjected to ever-increasing scrutiny. With legislative changes in NSW essentially limiting temporary coastal protection to sand-filled geocontainer structures and decision-makers becoming more stringent about hard structures, the demand for temporary structures is also on the rise. This presentation will co
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21

Yuksel, Yalcin, Selahattin Kayhan, Yesim Celikoglu, and Kubilay Cihan. "OPEN TYPE QUAY STRUCTURES UNDER PROPELLER JETS." Coastal Engineering Proceedings 1, no. 33 (2012): 19. http://dx.doi.org/10.9753/icce.v33.structures.19.

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In recent years, dramatically increases in ship dimensions and installed engine power, introduction of new type of special purpose ships and use of roll-on/roll-of, ferries, container ships can cause damage which in many cases threatens to undermine berth structures. Vessel jets of these types of ships can change flow area and cause erosion and scour around foundation of berth structures. Due to the damages in berth structures maintenance and repair cost may increase and also cause management losses. For this reason vessel jet induced the flow area around the berth structures during ships bert
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22

Baragmage, Dilshan S. P. Amarasinghe, Bahareh Forouzan, Koushyar Shaloudegi, Narutoshi Nakata, and Weiming Wu. "HYBRID SIMULATION OF COASTAL LOADING ON STRUCTURES." Coastal Engineering Proceedings, no. 36 (December 30, 2018): 15. http://dx.doi.org/10.9753/icce.v36.structures.15.

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Hybrid simulation combines the physical testing and computer modeling to analyze the dynamic responses of structures to external impacts (Hakuno et al., 1969). This relatively novel technique has been widely used in earthquake engineering. In the present study, it is extended to analyze the responses of structures to coastal loadings. This paper concerns mainly on the hydrodynamic loading induced by storm surge and tsunami events.
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23

Yamasaki, Satoshi, Shugo Nakamura, and Kazuhiko Fukui. "2P130 Attempts to predict RNA tertiary structures using fragment structural library based on secondary structures(The 48th Annual Meeting of the Biophysical Society of Japan)." Seibutsu Butsuri 50, supplement2 (2010): S105. http://dx.doi.org/10.2142/biophys.50.s105_2.

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24

Faccini, Riccardo, Antonio Lizzadro, Andrea Cappelletti, et al. "STABILITY VERIFICATIONS OF MARITIME GRAVITY STRUCTURES: THE ITALIAN REFERENCE STANDARDS." Coastal Engineering Proceedings, no. 38 (May 29, 2025): 76. https://doi.org/10.9753/icce.v38.structures.76.

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The design of maritime structures in Italy (and in Europe) is not supported by current technical standards that deal specifically with criteria and methods for evaluating the meteoceanographic loads governing the design. We refer specifically to port breakwaters or coastal defense structures involving gravity type structures, such as caisson breakwaters, concrete sea walls and rubble mound breakwaters. For the design of these structures, like for building structures in general, the 2018 “Technical Standards for Constructions” (NTC 2018) edited by the Italian Ministry of Infrastructures and Tra
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25

Kim, Young-Taek, Jong-In Lee, and Sungwon Shin. "MODEL TESTS ON WAVE TRANSMISSION COEFFICIENT FOR RUBBLE MOUND STRUCTURES WITH SUPERSTRUCTURES." Coastal Engineering Proceedings, no. 36 (December 30, 2018): 17. http://dx.doi.org/10.9753/icce.v36.structures.17.

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The coastal structures, such as breakwaters, are constructed to provide the calm basin for ships and to protect the harbor facilities. The adequate design and the evaluation of design parameters are indispensable. The determination of crest height of coastal structures is one of the most important design process among all procedures. The allowable wave overtopping, the relative crest height (Rc/Hs) and the wave transmission could be applied to design the crest height of structures. The previous studies on the wave transmission coefficients were mainly conducted about the low crested structures
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26

Dang, Hai Van, Sungwon Shin, Hyoungsu Park, Tori Tomiczek, Daniel Cox, and Dong-Soo Hur. "AN INTER-COMPARISON STUDY OF GREEN AND GRAY STRUCTURE EFFECTS ON OVERLAND FLOW FLOODING AND FORCE ON COASTAL BUILDINGS." Coastal Engineering Proceedings, no. 37 (September 1, 2023): 28. http://dx.doi.org/10.9753/icce.v37.structures.28.

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Coastal communities have been prone to extreme inundations generated by storm surges and tsunamis. Especially inundated overland flows adversely impact low-lying areas. Therefore, mitigation solutions are essential in protecting human lives and infrastructures. So far, hard structures (gray structures) have been widely used to protect coastal communities against severe flooding. Recently, Natural and Nature-Based Features (NNBF, green structures) also have been studied for flood hazard mitigation, such as mangroves (Tomiczek et al., 2020), dunes, reefs, etc. However, the inter-comparison studi
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27

Rossi, Emanuele. "Structures." Annuaire international de justice constitutionnelle 17, no. 2001 (2002): 389–98. http://dx.doi.org/10.3406/aijc.2002.1649.

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28

Hoppenhaus, Kerstin, Anna Wienhard, and Manfred Salmhofer. "Structures." Mitteilungen der Deutschen Mathematiker-Vereinigung 26, no. 4 (2018): 181–85. http://dx.doi.org/10.1515/dmvm-2018-0056.

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29

Woodward, Chris T. "structures." Duke Mathematical Journal 93, no. 2 (1998): 345–77. http://dx.doi.org/10.1215/s0012-7094-98-09312-7.

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30

Fierro, Eduardo. "Structures." Earthquake Spectra 19, no. 1_suppl (2003): 145–54. http://dx.doi.org/10.1193/1.1737248.

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31

Gardner, Leroy. "Structures." Structures 1 (February 2015): 1. http://dx.doi.org/10.1016/j.istruc.2014.12.002.

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32

Townes, Emilie M. "Structures." Journal of Feminist Studies in Religion 38, no. 1 (2022): 15–17. http://dx.doi.org/10.2979/jfemistudreli.38.1.03.

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33

Miyaoka, Reiko. "Lie contact structures and conformal structures." Kodai Mathematical Journal 14, no. 1 (1991): 42–71. http://dx.doi.org/10.2996/kmj/1138039339.

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Laudenbach, François, and Gaël Meigniez. "Haefliger structures and symplectic/contact structures." Journal de l’École polytechnique — Mathématiques 3 (2016): 1–29. http://dx.doi.org/10.5802/jep.27.

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35

Mann, Benjamin M., Krzysztof Galicki, and Charles P. Boyer. "Hypercomplex structures from 3-Sasakian structures." Journal für die reine und angewandte Mathematik (Crelles Journal) 1998, no. 501 (1998): 115–41. http://dx.doi.org/10.1515/crll.1998.074.

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36

Binda, L. "Building Civil Structures and Masonry Structures." Construction and Building Materials 16, no. 7 (2002): 377–78. http://dx.doi.org/10.1016/s0950-0618(02)00039-9.

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Van Cutsem, Bernard. "Combinatorial structures and structures for classification." Computational Statistics & Data Analysis 23, no. 1 (1996): 169–88. http://dx.doi.org/10.1016/s0167-9473(96)00028-x.

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Zhou, Xiangnan, and Qingguo Li. "Partial residuated structures and quantum structures." Soft Computing 12, no. 12 (2008): 1219–27. http://dx.doi.org/10.1007/s00500-008-0283-2.

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39

Barron, Tatyana, and Mohammad Shafiee. "Multisymplectic structures induced by symplectic structures." Journal of Geometry and Physics 136 (February 2019): 1–13. http://dx.doi.org/10.1016/j.geomphys.2018.10.008.

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40

Mizner, Robert I. "Almost CR Structures, $f$-Structures, Almost Product Structures and Associated Connections." Rocky Mountain Journal of Mathematics 23, no. 4 (1993): 1337–59. http://dx.doi.org/10.1216/rmjm/1181072496.

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41

Goedhart, Wisse, Bas Hofland, Coen Kuiper, Wouter Ockeloen, and Matthieu de Schipper. "EXPERIMENTAL STUDY ON WAVE-INDUCED SCOUR IN FRONT OF SLOPING COASTAL STRUCTURES AND THE INFLUENCE OF BED PROTECTION." Coastal Engineering Proceedings, no. 37 (September 1, 2023): 102. http://dx.doi.org/10.9753/icce.v37.structures.102.

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The erosion of the seabed in front of coastal structures induced by waves can lead to multiple types of failure in stability or function of the structure. On this topic most research has been done into erosion in front of vertical structures (e.g. Xie, 1981). For sloping structures a knowledge gap exists in the understanding of the processes that lead to erosion of seabed material directly in front of the structure. Available studies for sloping structures were done with regular waves (e.g. Sumer and Fredsøe, 2000) or for a low number of irregular waves (e.g. Den Bieman et al., 2019). In this
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42

Pierro, Thomas P., Thomas J. Campbell, Morjana Signorin, and Lindino Benedet. "APPLICATION OF THE LONGSHORE TRANSPORT CURVE AS AN ENGINEERING TOOL FOR DESIGN OF COASTAL STRUCTURES." Coastal Engineering Proceedings, no. 38 (May 29, 2025): 43. https://doi.org/10.9753/icce.v38.structures.43.

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Beach nourishment projects can develop localized, high erosion areas known as erosional hotspots. These regions are likely to pose a recurring beach management issue requiring either additional fill in future nourishments or stabilization with structures. In some instances, coastal structures have been viewed with a poor reputation for being overused and misunderstood. It is commonly known that they can result in trapping sand at the expense of the downdrift beach. This is also true of other coastal structures such as breakwaters that slow the transport of sand, and seawalls or revetments that
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43

Tamura, Shohei, Yaemi Teramoto, Jiro Katto, and Hiroshi Wako. "1P041 Structural alignment with Delaunay codes characterizing local structures and structural motifs identified by the alignment(1. Protein structure and dynamics (I),Poster Session,Abstract,Meeting Program of EABS & BSJ 2006)." Seibutsu Butsuri 46, supplement2 (2006): S157. http://dx.doi.org/10.2142/biophys.46.s157_1.

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44

April-LeQuéré, Philippe, Ioan Nistor, and Abdolmajid Mohammadian. "SCOUR AMPLIFICATION CAUSED BY STRUCTURE PROXIMITY IN EXTREME FLOWS." Coastal Engineering Proceedings, no. 37 (September 1, 2023): 11. http://dx.doi.org/10.9753/icce.v37.structures.11.

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Forensic engineering field surveys of recent tsunamis (Saatcioglu et al. 2005, Chock et al. 2013) highlighted the importance of scour-related damage to structures located in coastal communities. To date, only a limited number of studies have investigated the interaction of extreme hydrodynamic flows and groups of structures, and none have studied the scour around multiple structures interacting with each other. One field example discussed by Yeh et al. (2013) documented flow concentration in between two tsunami-resistant buildings, leading to a deep scour hole between them and infrastructure f
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45

Wellens, Peter, M. J. A. Borsboom, and M. R. A. Van Gent. "3D SIMULATION OF WAVE INTERACTION WITH PERMEABLE STRUCTURES." Coastal Engineering Proceedings 1, no. 32 (2011): 28. http://dx.doi.org/10.9753/icce.v32.structures.28.

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COMFLOW is a general 3D free-surface flow solver. The main objective in this paper is to extend the solver with a
 permeable flow model to simulate wave interaction with rubble-mound breakwaters. The extended Navier-Stokes
 equations for permeable flow are presented and we show the discretization of these equations as they are implemented in
 COMFLOW. An analytical solution for the reflection coefficient of a permeable structure is derived and the numerical
 model is compared to the solution. In addition, a validation study has been performed, in which we compare the numeri
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46

Robertson, I. N. "RECENT ADVANCES IN TSUNAMI DESIGN OF COASTAL STRUCTURES." Coastal Engineering Proceedings, no. 37 (October 2, 2023): 83. http://dx.doi.org/10.9753/icce.v37.structures.83.

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The 2004 Indian Ocean Tsunami initiated a rapid increase in tsunami research, particularly as it relates to the performance of coastal structures during tsunami inundation. The subsequent Chile tsunami in 2010 and Great Japan Earthquake and Tsunami (or Tohoku Tsunami) in 2011 re-invigorated the urgency of developing design provisions for tsunami loading on coastal structures. The culmination of this experimental and theoretical research, and field reconnaissance after damaging tsunamis, resulted in the development of a new Chapter 6 “Tsunami Loads and Effects” in the ASCE7-16 Standard “Minimum
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47

Rooijen, Arnold van, Julia Schwab, Ryan Lowe, and Renan Silva. "OBSERVATIONS OF WAVE RUNUP REDUCTION BY POROUS STRUCTURES." Coastal Engineering Proceedings, no. 38 (May 29, 2025): 50. https://doi.org/10.9753/icce.v38.structures.50.

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Coastal and estuarine flooding and erosion are expected to intensify considerably over the next decades due to sea level rise and increase in extreme storm events. Foreshore managers have typically responded to flooding and erosion threats by constructing hard, impermeable structures (e.g., rock walls, revetments). The downsides of these structures, however, are increasingly recognized, such as loss of beaches, negative effects on ecosystems and substantial installation and maintenance costs. Few studies have focused on wave attenuation by porous structures (e.g., Losada et al., 1995; Requejo
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48

Tsaimou, Christina, Michalis Chondros, and Vasiliki Tsoukala. "MONITORING DAMAGE EVOLUTION OF CONSTRUCTED RUBBLE MOUND STRUCTURES." Coastal Engineering Proceedings, no. 38 (May 29, 2025): 119. https://doi.org/10.9753/icce.v38.structures.119.

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Port and coastal rubble mound structures are constru- cted to minimize the effects of wave action on beaches and harbors. Their structural degradation and, conse- quently, their damage are usually linked to the instability of the armor layer, expressed as rocking, units’ displace- ments, blanket sliding, or settlement (Campos et al. 2020a). Within the context of retaining the functionality of in-service rubble mound structures, monitoring insta- bility issues allows for understanding damage evolution and optimizing repair actions to confront failures.
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49

KAWAJI, Hitoshi, Shoji YAMANAKA, and Masaru SHIOTANI. "Structures and Properties of Semiconductor Microclusters. Syntheses, Structures and Properties of Silicon Clathrate Compounds and Layer Structured Silicon." Hyomen Kagaku 18, no. 3 (1997): 149–55. http://dx.doi.org/10.1380/jsssj.18.149.

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50

Esteban, Miguel, Izumi Morikubo, Tomoya Shibayama, et al. "STABILITY OF RUBBLE MOUND BREAKWATERS AGAINST SOLITARY WAVES." Coastal Engineering Proceedings 1, no. 33 (2012): 9. http://dx.doi.org/10.9753/icce.v33.structures.9.

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No formulas currently exist to design armour units against tsunami attack. To develop such formulae, laboratory experiments were carried out to clarify the failure mechanism of these types of structures. Also, the behavior of armour units against real cases of tsunami attack during the 2011 Tohoku tsunami were evaluated. Both the results of the laboratory experiments and the breakwaters studied in the field where then analyzed in terms of well established formulas such as that of Van der Meer or Hudson. The design of structures that only fail partially during a given tsunami event (“resilient”
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