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En el instante 11 de octubre de 2025, 1:22:51 UTC,
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Añadido recurso “Estimation of peak flow in flood-producing rivers using numerical simulation, geospatial information and evolutionary algorithms,” Rev. Int. Métodos Numér a “Estimation of peak flow in flood-producing rivers using numerical simulation, geospatial information and evolutionary algorithms,” Rev. Int. Métodos Numér
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2 | "author": "H Esqueda, S Botello, S Valdez", | 2 | "author": "H Esqueda, S Botello, S Valdez", | ||
3 | "author_email": null, | 3 | "author_email": null, | ||
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8 | "value": "Revista" | 8 | "value": "Revista" | ||
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17 | "description": "Este grupo integra las publicaciones | 17 | "description": "Este grupo integra las publicaciones | ||
18 | acad\u00e9micas derivadas de los proyectos de investigaci\u00f3n del | 18 | acad\u00e9micas derivadas de los proyectos de investigaci\u00f3n del | ||
19 | Observatorio Metropolitano CentroGeo. Incluye art\u00edculos | 19 | Observatorio Metropolitano CentroGeo. Incluye art\u00edculos | ||
20 | presentados en congresos nacionales e internacionales, manuscritos en | 20 | presentados en congresos nacionales e internacionales, manuscritos en | ||
21 | formato preprint, cap\u00edtulos de libro y trabajos publicados en | 21 | formato preprint, cap\u00edtulos de libro y trabajos publicados en | ||
22 | revistas cient\u00edficas especializadas. Estos materiales reflejan la | 22 | revistas cient\u00edficas especializadas. Estos materiales reflejan la | ||
23 | labor de investigaci\u00f3n, desarrollo metodol\u00f3gico y | 23 | labor de investigaci\u00f3n, desarrollo metodol\u00f3gico y | ||
24 | an\u00e1lisis territorial del observatorio, contribuyendo al avance | 24 | an\u00e1lisis territorial del observatorio, contribuyendo al avance | ||
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43 | "notes": "<jats:p>Floods produce enormous human and material losses | 43 | "notes": "<jats:p>Floods produce enormous human and material losses | ||
44 | every year. Evaluating their extent and severity, and especially | 44 | every year. Evaluating their extent and severity, and especially | ||
45 | simulating possible future scenarios can improve the response, | 45 | simulating possible future scenarios can improve the response, | ||
46 | mitigation and prevention of the effects of this phenomenon. This | 46 | mitigation and prevention of the effects of this phenomenon. This | ||
47 | paper presents a methodology to reproduce the extent of floods | 47 | paper presents a methodology to reproduce the extent of floods | ||
48 | produced by channel overflows and recorded by satellite images, | 48 | produced by channel overflows and recorded by satellite images, | ||
49 | identifying the maximum discharge that produced it by means of the | 49 | identifying the maximum discharge that produced it by means of the | ||
50 | numerical solution of the 2D shallow water equations and Differential | 50 | numerical solution of the 2D shallow water equations and Differential | ||
51 | Evolution. The objective is to minimize the difference between the | 51 | Evolution. The objective is to minimize the difference between the | ||
52 | extent of the flooded area recorded in the satellite images, and that | 52 | extent of the flooded area recorded in the satellite images, and that | ||
53 | obtained in the simulation by adjusting the maximum value of the flow | 53 | obtained in the simulation by adjusting the maximum value of the flow | ||
54 | curve used at the entrance of the channel in the solution domain. The | 54 | curve used at the entrance of the channel in the solution domain. The | ||
55 | proposal is applied to data and images corresponding to an area | 55 | proposal is applied to data and images corresponding to an area | ||
56 | located south of the city of Villahermosa, in the Mexican state of | 56 | located south of the city of Villahermosa, in the Mexican state of | ||
57 | Tabasco, which is an area susceptible to flooding by the overflow of | 57 | Tabasco, which is an area susceptible to flooding by the overflow of | ||
58 | the R\u00edo de la Sierra. Our proposal shows that it is possible to | 58 | the R\u00edo de la Sierra. Our proposal shows that it is possible to | ||
59 | have more accurate information on the extent and height of water in | 59 | have more accurate information on the extent and height of water in | ||
60 | the flooded area than that shown by the satellite, which can be used | 60 | the flooded area than that shown by the satellite, which can be used | ||
61 | as information for prevention and mitigation plans for the adverse | 61 | as information for prevention and mitigation plans for the adverse | ||
62 | effects of flooding.</jats:p>", | 62 | effects of flooding.</jats:p>", | ||
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88 | "description": "<jats:p>Floods produce enormous human and | ||||
89 | material losses every year. Evaluating their extent and severity, and | ||||
90 | especially simulating possible future scenarios can improve the | ||||
91 | response, mitigation and prevention of the effects of this phenomenon. | ||||
92 | This paper presents a methodology to reproduce the extent of floods | ||||
93 | produced by channel overflows and recorded by satellite images, | ||||
94 | identifying the maximum discharge that produced it by means of the | ||||
95 | numerical solution of the 2D shallow water equations and Differential | ||||
96 | Evolution. The objective is to minimize the difference between the | ||||
97 | extent of the flooded area recorded in the satellite images, and that | ||||
98 | obtained in the simulation by adjusting the maximum value of the flow | ||||
99 | curve used at the entrance of the channel in the solution domain. The | ||||
100 | proposal is applied to data and images corresponding to an area | ||||
101 | located south of the city of Villahermosa, in the Mexican state of | ||||
102 | Tabasco, which is an area susceptible to flooding by the overflow of | ||||
103 | the R\u00edo de la Sierra. Our proposal shows that it is possible to | ||||
104 | have more accurate information on the extent and height of water in | ||||
105 | the flooded area than that shown by the satellite, which can be used | ||||
106 | as information for prevention and mitigation plans for the adverse | ||||
107 | effects of flooding.</jats:p>", | ||||
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115 | "name": "\u201cEstimation of peak flow in flood-producing rivers | ||||
116 | using numerical simulation, geospatial information and evolutionary | ||||
117 | algorithms,\u201d Rev. Int. M\u00e9todos Num\u00e9r", | ||||
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85 | "title": "\u201cEstimation of peak flow in flood-producing rivers | 129 | "title": "\u201cEstimation of peak flow in flood-producing rivers | ||
86 | using numerical simulation, geospatial information and evolutionary | 130 | using numerical simulation, geospatial information and evolutionary | ||
87 | algorithms,\u201d Rev. Int. M\u00e9todos Num\u00e9r", | 131 | algorithms,\u201d Rev. Int. M\u00e9todos Num\u00e9r", | ||
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89 | "url": "https://doi.org/10.23967/j.rimni.2024.08.002", | 133 | "url": "https://doi.org/10.23967/j.rimni.2024.08.002", | ||
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