Tesis sobre el tema "Landslides monitoring"
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Bejo, Siti. "Elastic image registration for landslides monitoring". Thesis, University of Surrey, 2006. http://epubs.surrey.ac.uk/804429/.
Texto completoMuratoglu, Bukay. "Monitoring Bulbulderesi And Bakacak Landslides With Photogrammetric Techniques". Master's thesis, METU, 2009. http://etd.lib.metu.edu.tr/upload/3/12610586/index.pdf.
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lderesi and Bakacak landslides in Asarsuyu Catchment for 42 years period by the digital aerial photogrammetric techniques while evaluating the possible use of archive aerial photography in such analysis. To achieve the purpose of the study an orthophoto map was generated by aerial photographs belonging to 1994 year. The orthophoto map was utilized as a base map for aerial photo interpretation of different sets of aerial photographs corresponding to 1952, 1972, 1984 and 1994 years. As a result of this, 4 landslide activity maps are obtained. In addition, the characteristics of these landslides are analyzed by utilizing digital elevation model (DEM) created from stereo photographs of 1994. As a result of the study, no considerable variation is detected in the position of main boundaries of Bü
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lderesi and Bakacak landslides except some minor differences. However, within the landslides many topographical changes were observed between 1952 and 1994 period. Based on the profiles from toe to crest of the Bü
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lderesi landslide, the approximate length was measured as 4773m whereas the approximate width was about 2614m. The areal extent was calculated as ~12km2 having an approximate slope gradient ranging between 10-15°
with local variations. On the other hand, the approximate length of Bakacak landslide was 4420m and the approximate width was 832m from toe to crest with an area of ~4km2 and with an approximate slope angle 9-14°
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Green, Sam. "High resolution monitoring of the Mam Tor Landslip, North Derbyshire UK". Thesis, University of Manchester, 2008. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.491868.
Texto completoPecoraro, Gaetano. "Monitoring strategies and warning models for weather-induced landslides". Doctoral thesis, Universita degli studi di Salerno, 2019. http://elea.unisa.it:8080/xmlui/handle/10556/4284.
Texto completoWeather induced landslides cause a large number of casualties as well as severe economic losses worldwide every year. Such a diffuse risk cannot be mitigated only by means of structural works, typically characterized by significant economic and environment al impacts. Therefore, landslide early warning systems (LEWS) are being increasingly applied as non structural mitigation measures aiming at reducing the loss of life probability and other adverse consequences from landslide events by prompting people to a ct appropriately and in sufficient time to reduce the possibility of harm or loss. The systems can be distinguished, as a function of the scale of design and operation, in two different categories. Territorial systems (Te LEWS), deal with multiple landslid es over wide areas at regional scale, i.e. typically a basin, a municipality or a region; local systems (Lo LEWS) address single landslides at slope scale. In a preliminary phase of this study, a detailed review of Lo LEWS operational worldwide is provide d. The information has been retrieved from peer reviewed articles published in scientific journals and proceedings of technical conferences, books, reports, and institutional web pages. The main characteristics of these systems have been summarized and des cribed according to a scheme based on a clear distinction between three modules: landslide model, warning model and warning system. The monitoring strategies implemented therein have been presented and discussed, focusing on the monitored parameters and th e monitoring instruments for each type of landslide. Subsequently, warning models developed within Te LEWS for weather induced landslides have been analyzed , pointing out that: their outputs are strongly dependent from the accurateness and reliability of t he information on landslide occurrences; and only meteorological variables are considered in most of occurrences; and only meteorological variables are considered in most of the cases, thus leading to an unavoidable uncertainty in the empirically the cases, thus leading to an unavoidable uncertainty in the empirically defined thresholds. defined thresholds. To overcome these issues, original procedures for To overcome these issues, original procedures for defining wardefining warning models are herein proposed and tested on case studies ning models are herein proposed and tested on case studies in Campania and Emiliain Campania and Emilia--Romagna regions (Italy) and in Norway. In Italy, Romagna regions (Italy) and in Norway. In Italy, a probabilistic approach has been developed to determine landslide a probabilistic approach has been developed to determine landslide conditional probabilities related to rainfall of specific conditional probabilities related to rainfall of specific intensity and intensity and duration. The adopted Bayesian methodology allows to consider the duration. The adopted Bayesian methodology allows to consider the uncertainty of the data and to provide a quantitative assessment of the uncertainty of the data and to provide a quantitative assessment of the reliability of the results. Data on landslide occurrences have been derived reliability of the results. Data on landslide occurrences have been derived from a new landslide inventofrom a new landslide inventory, named “FraneItalia”, wherein data are ry, named “FraneItalia”, wherein data are retrieved from online journalistic news; the correlations between retrieved from online journalistic news; the correlations between landslides and rainfall have been assessed by analylandslides and rainfall have been assessed by analyzzing satelliteing satellite--rainfall rainfall records within weather alert zones. On the other hand, the methodology records within weather alert zones. On the other hand, the methodology prproposed for Norway aims at integrating the hydrooposed for Norway aims at integrating the hydro--meteorological meteorological variables employed within the regional model used by the national early variables employed within the regional model used by the national early warning system (i.e. combinations of relative water supply and relative soil warning system (i.e. combinations of relative water supply and relative soil water saturation degree) with monitoring datwater saturation degree) with monitoring data collected at local scale, a collected at local scale, specifically pore water pressure observations acquired by the Norwegian specifically pore water pressure observations acquired by the Norwegian Geotechnical Institute for a variety of projects. The analyses are carried Geotechnical Institute for a variety of projects. The analyses are carried out on a number of hydrological basins (test areas) defined at national out on a number of hydrological basins (test areas) defined at national scale andscale and selected considering the occurrence of landslides in loose soils selected considering the occurrence of landslides in loose soils from 2013 to 2017 and the availability of a significant number of pore from 2013 to 2017 and the availability of a significant number of pore water pressure measurements. For each basin, the alerts issued by the water pressure measurements. For each basin, the alerts issued by the regional model are assessed by means of a 2regional model are assessed by means of a 2--step step analysis employing analysis employing indicators derived from simple moving averages of the pore water indicators derived from simple moving averages of the pore water pressure measurements. pressure measurements. The warning models developed herein were successfully applied to The warning models developed herein were successfully applied to selected case studies. Therefore, the proposed methodologies can be selected case studies. Therefore, the proposed methodologies can be considered valuconsidered valuable frameworks considering aspects that are crucial for able frameworks considering aspects that are crucial for improving the efficiency of the models, such as: the potential of nonimproving the efficiency of the models, such as: the potential of non--conventional landslide inventories and remote sensing monitoring conventional landslide inventories and remote sensing monitoring instruments to complement the traditional sources of data, the uinstruments to complement the traditional sources of data, the use of se of probabilistic techniques for defining more objective rainfall thresholds, probabilistic techniques for defining more objective rainfall thresholds, and the additional contribution of the information derived from the local and the additional contribution of the information derived from the local observations of pore water pressures.observations of pore water pressures. [edited by Author]
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Huang, Junyi. "Investigation on landslide susceptibility using remote sensing and GIS methods". HKBU Institutional Repository, 2014. https://repository.hkbu.edu.hk/etd_oa/33.
Texto completoLi, Aiguo y 李愛國. "Field monitoring of a saprolite cut slope". Thesis, The University of Hong Kong (Pokfulam, Hong Kong), 2003. http://hub.hku.hk/bib/B29901765.
Texto completoYfantis, Georgios. "Kinematics of soft soil landslides based on the analysis of microseismic monitoring data". Thesis, University of Strathclyde, 2015. http://oleg.lib.strath.ac.uk:80/R/?func=dbin-jump-full&object_id=25953.
Texto completoSmith, Alister. "Quantification of slope deformation behaviour using acoustic emission monitoring". Thesis, Loughborough University, 2015. https://dspace.lboro.ac.uk/2134/18593.
Texto completoHayati, Noorlaila [Verfasser], Wolfgang [Akademischer Betreuer] Niemeier y Uwe [Akademischer Betreuer] Sörgel. "Slope Movement Monitoring of The Ciloto Landslides Area Using InSAR Techniques / Noorlaila Hayati ; Wolfgang Niemeier, Uwe Sörgel". Braunschweig : Technische Universität Braunschweig, 2020. http://d-nb.info/1205461973/34.
Texto completoHayati, Noorlaila Verfasser], Wolfgang [Akademischer Betreuer] [Niemeier y Uwe [Akademischer Betreuer] Sörgel. "Slope Movement Monitoring of The Ciloto Landslides Area Using InSAR Techniques / Noorlaila Hayati ; Wolfgang Niemeier, Uwe Sörgel". Braunschweig : Technische Universität Braunschweig, 2020. http://d-nb.info/1205461973/34.
Texto completoCrawford, Matthew M. "HYDROLOGIC MONITORING AND 2-D ELECTRICAL RESISTIVITY IMAGING FOR JOINT GEOPHYSICAL AND GEOTECHNICAL CHARACTERIZATION OF SHALLOW COLLUVIAL LANDSLIDES". UKnowledge, 2018. https://uknowledge.uky.edu/ees_etds/61.
Texto completoCodeglia, Daniela. "Development of an acoustic emission waveguide-based system for monitoring of rock slope deformation mechanisms". Thesis, Loughborough University, 2017. https://dspace.lboro.ac.uk/2134/33500.
Texto completoAbeykoon, A. Gedara Tharindu Bhagya Bandara. "Developing an economical and reliable real-time warning system for rainfall-induced individual landslides". Thesis, Queensland University of Technology, 2022. https://eprints.qut.edu.au/227324/1/A%20Gedara%20Tharindu%20Bhagya%20Bandara_Abeykoon_Thesis.pdf.
Texto completoPERSICHILLO, MARIA GIUSEPPINA. "Shallow landslides susceptibility assessment by means of remotely sensed data and field survey: multi-scale analysis/monitoring of predisposing factors in a climate change context". Doctoral thesis, Università degli studi di Pavia, 2016. http://hdl.handle.net/11571/1203397.
Texto completoSobieszczyk, Steven. "Using Turbidity Monitoring and LiDAR-Derived Imagery to Investigate Sources of Suspended Sediment in the Little North Santiam River Basin, Oregon, Winter 2009-2010". PDXScholar, 2010. https://pdxscholar.library.pdx.edu/open_access_etds/176.
Texto completoPalis, Édouard. "Étude du comportement post-rupture de versants instables par l’observation et l’instrumentation". Thesis, Université Côte d'Azur (ComUE), 2017. http://www.theses.fr/2017AZUR4014/document.
Texto completoGravity processes occur at many scales of time and space in the evolution of landforms’ morphology. Their understanding is subtle and complex and it is fundamental to consider the management of the risks associated with these destructive phenomena. Indeed, the intrinsic characteristics of the studied slopes are specific and the external factors acting on the dynamics of the destabilization present a wide range of temporalities and intensities. In order to understand how these forcings influence the behavior of slope instabilities, a systemic approach has been adopted in this work to put into perspective all the processes involved in the temporal evolution of their behaviors. Through two study cases located in the Alpes Maritimes (La Clapière at Saint-Etienne-de-Tinée and the Prat de Julian at Vence, France), real natural observatories with several years of multi-parameter monitoring, we were able to clarify the ability of instrumental observation to determine key behavioral parameters controlling the dynamic evolution of unstable slopes. Multivariate analyzes integrating the surface (displacements, deformations, disturbances) and internal state (groundwater level, electrical resistivity of the subsurface) allowed to quantify the links between the behavioral state of the studied slope and the meteorological contributions. This work finally highlights the importance of multi-parameter observational studies in the development of descriptive and predictive models, as well as the alert systems associated with these major risks
Garich, Evan Andrew. "Wireless, automated monitoring for potential landslide hazards". Texas A&M University, 2003. http://hdl.handle.net/1969.1/5889.
Texto completoDarvishi, Mehdi. "Landslide Monitoring Using Radar Interferometry in the Alps". Doctoral thesis, Università degli studi di Trento, 2019. http://hdl.handle.net/11572/243417.
Texto completoPeppa, Maria Valasia. "Morphology-based landslide monitoring with an unmanned aerial vehicle". Thesis, University of Newcastle upon Tyne, 2018. http://hdl.handle.net/10443/4115.
Texto completoLee, Jungwoo. "REAL-TIME MONITORING OF LANDSLIDE USING WIRELESS SENSOR NETWORK". The Ohio State University, 2009. http://rave.ohiolink.edu/etdc/view?acc_num=osu1245078101.
Texto completoMerritt, Andrew. "4D geophysical monitoring of hydrogeological precursors to landslide activation". Thesis, University of Leeds, 2014. http://etheses.whiterose.ac.uk/7422/.
Texto completoStumpf, André. "Landslide recognition and monitoring with remotely sensed data from passive optical sensors". Thesis, Strasbourg, 2013. http://www.theses.fr/2013STRAH025/document.
Texto completoLandslide inventory mapping and monitoring are indispensable for hazard assessment and disaster management. The enhanced availability of VHR satellites, UAVs and consumer grade digital cameras offers a great potential to support those tasks at regional and local scales, and to complement established techniques such as in situ instrumentation, radar, andlaser scanning. A lack of image processing tools for the efficient extraction process-relevant information from different types of optical imagery still complicates the exploitation of optical data and hinders the implementation of operational services. This doctoral thesis is dedicated to the development and application of image processing techniques for the mapping,characterization and monitoring of landslides with optical remote sensing data. A comprehensive review of innovative remote sensing techniques for landslide monitoring shows the potential and limitations of available techniques and guides the selection of the most appropriate combination of sensors – platforms – image analysis methods according to the observed process and end-user needs. For the efficient detection of landslides after major triggering events at the regional scale, a method for rapid mapping combining image segmentation, feature extraction, supervised learning is developed. For detailed landslide investigations at the local scale, this study elaborates image processing chains for detection of surface fissures in time-series of UAV images as geo-indicators of landslide activity, the measurement of horizontal surface displacements from VHR satellite images using stereo-photogrammetric and image correlation methods, and 3D measurements from terrestrial photographs based on multi-view open-source photogrammetry
Iglesias, González Rubén. "High-resolution space-borne and ground-based SAR persistent scatterer interferometry for landslide monitoring". Doctoral thesis, Universitat Politècnica de Catalunya, 2015. http://hdl.handle.net/10803/390958.
Texto completoCada año, con la llegada de la época de lluvia y el deshielo en primavera, los deslizamientos de laderas representan una gran amenaza para la vida humana y para un gran número de infraestructuras en entornos naturales. Para abordar esta problemática, tradicionalmente se utilizan técnicas de auscultación que incluyen extensómetros, inclinómetros, piezómetros o redes de Sistemas de Posicionamiento Global (GPS). A pesar de que su uso está muy extendido, estas técnicas presentan un gran número de limitaciones. Por una parte, requieren sensores generalmente caros y complejos, cuya eficiencia está sujeta a la disponibilidad de usuarios expertos para su posterior interpretación. Además, estas técnicas típicamente presentan bajas prestaciones en términos de muestreo espacial y cobertura, dificultando de este modo la caracterización de deslizamientos complejos. Finalmente, requieren la instalación de dispositivos directamente sobre la superficie de deslizamiento, lo cual puede resultar una tarea compleja en zonas de difícil acceso. Durante esta última década, el uso de imágenes de satélite de Radar de Apertura Sintética (SAR) y concretamente el uso de su más notable aplicación, conocida como Interferometría SAR (InSAR), ha experimentado un gran impulso, haciendo posible la observación de estos fenómenos de desplazamiento con precisiones milimétricas. Estos avances están permitiendo el desarrollo de herramientas flexibles por parte de la industria, laboratorios de investigación y universidades, para el estudio de desplazamientos del terreno mediante técnicas InSAR, las cuales están siendo adaptadas para su operatividad e integración con observaciones convencionales y modelos predictivos. Por otra parte, cuando se requiere de una alta flexibilidad en términos de tiempo de revisita, o existe la necesidad de adaptar la orientación del sensor a las características específicas de la zona bajo estudio, la actividad de investigación de un gran número de grupos se ha centrado en el desarrollo de sensores SAR terrestres. Fáciles de implementar y de un menor coste en comparación con soluciones orbitales, estos sensores representan una alternativa muy interesante para la monitorización de zonas localizadas. A pesar de todas estas ventajas, tanto los sensores SAR embarcados en plataformas orbitales como los terrestres presentan distintas limitaciones, especialmente, en áreas montañosas altamente vegetadas donde normalmente se producen los deslizamientos de laderas. Mientras que su rendimiento sobre áreas rocosas es muy satisfactorio en ausencia de nieve, pueden aparecer diferentes limitaciones debido a efectos de decorrelación temporal sobre zonas con vegetación, a distorsiones en la imagen causadas por la geometría de adquisición, a la presencia de artefactos atmosféricos severos en zonas con topografía abrupta o cuando se intentan analizar desplazamientos de carácter rápido. Finalmente, debe tenerse en cuenta que los sensores SAR sólo son sensibles a la componente de desplazamiento en la línea de visión del satélite y por ello, ésta, puede diferir notablemente de la real. Aún queda por tanto un cierto camino por recorrer para superar todas estas limitaciones y convertir a las técnicas InSAR en herramientas totalmente operativas, contexto en el que esta Tesis Doctoral se ha desarrollado. El principal objetivo de esta Tesis Doctoral es el desarrollo de técnicas InSAR para la monitorización de zonas afectadas por deslizamientos de laderas. En concreto, el rendimiento de éstas técnicas para ambas plataformas, orbital y terrestre, se ha comparado y evaluado exhaustivamente en el deslizamiento de El Forn de Canillo, Andorra, que está considerado como con uno de los mayores deslizamientos de ladera de los Pirineos. Las técnicas presentadas en esta Tesis Doctoral proporcionan evidencias para la toma de decisión, apoyadas por la ciencia, con el fin de facilitar la gestión de los riesgos asociados con los deslizamientos de laderas inestables.
Cada any, amb l'arribada de l'època de pluges i desglaç a la primavera, les esllavissades representen una gran amenaça per a la vida humana i per a un gran nombre d'infraestructures en entorns naturals. Per abordar aquesta problemàtica, tradicionalment s'utilitzen tècniques d'auscultació que inclouen extensòmetres, inclinòmetres, piezòmetres o xarxes de Sistemes de Posicionament Global (GPS). Tot i que el seu ús està molt estès, aquestes tècniques presenten un gran nombre de limitacions. D'una banda, requereixen de sensors generalment cars i complexes, on la seva eficiència està subjecta a la disponibilitat d'usuaris experts per a la seva posterior interpretació. A més, aquestes tècniques típicament presenten baixes prestacions en termes de mostreig espacial i cobertura, dificultant d'aquesta manera la caracterització d'esllavissades complexes. Finalment, requereixen de la instal·lació de dispositius directament sobre la superfície de l'esllavissada, la qual cosa pot resultar una tasca complicada en zones de difícil accés.Durant aquesta última dècada, l'ús d'imatges de satèl·lit de Radar d'Obertura Sintètica (SAR) i més concretament l'ús de la seva aplicació més notable, coneguda com Interferometria SAR (InSAR), ha experimentat un gran impuls, fent possible l'observació de fenòmens de desplaçament complexos amb precisions mil·limètriques. Aquests avanços estan permetent el desenvolupament d'eines flexibles per part de la indústria, laboratoris d'investigació i universitats, per a l'estudi de desplaçaments del terreny mitjançant tècniques InSAR, les quals s'estan adaptant per a la seva operativitat i integració amb observacions convencionals i models predictius.D'altra banda, quan es requereix d'una alta flexibilitat en termes de temps de revisita, o hi ha la necessitat d'adaptar l'orientació del sensor a les característiques específiques de la zona sota estudi, l'activitat de recerca d'un gran nombre de grups s'ha centrat en el desenvolupament de sensors SAR terrestres. Fàcils d'implementar i d'un menor cost en comparació amb solucions orbitals, aquests sensors representen una alternativa molt interessant per a la monitorització de zones localitzades. Malgrat tots aquests avantatges, tants els sensors SAR embarcats en plataformes orbitals com els terrestres presenten diferents limitacions, especialment, en àrees muntanyoses altament vegetades on normalment es produeixen les esllavissades. Mentre que el seu rendiment sobre àrees rocoses és molt satisfactori en absència de neu, poden aparèixer diferents limitacions degut a efectes de decorrelació temporal sobre zones amb vegetació, a distorsions en la imatge causades per la geometria d'adquisició, a la presència d'artefactes atmosfèrics severs en zones amb topografia abrupta o quan s'intenten analitzar desplaçaments de caràcter ràpid. Finalment, cal tenir en compte que els sensors SAR només són sensibles a la component de desplaçament a la línia de visió del satèl·lit i per tant, aquesta, pot diferir notablement de la real. Encara queda un cert camí per recórrer per superar totes aquestes limitacions i convertir a les tècniques InSAR en eines totalment operatives, context en què aquesta Tesi Doctoral s'ha desenvolupat.El principal objectiu d'aquesta Tesi Doctoral és el desenvolupament de tècniques InSAR per al monitoratge de zones afectades per esllavissades. En concret, el rendiment d'aquestes tècniques per a ambdues plataformes, orbital i terrestre, s'ha comparat i avaluat exhaustivament en el lliscament del Forn de Canillo, Andorra, que està considerat com una de les majors esllavissades dels Pirineus.Les tècniques presentades en aquesta Tesi Doctoral proporcionen evidències per a la presa de decisió, recolzades per la ciència, per tal de facilitar la gestió dels riscos associats amb les esllavissades.
Walstra, Jan. "Historical aerial photographs and digital photogrammetry for landslide assessment". Thesis, Loughborough University, 2006. https://dspace.lboro.ac.uk/2134/2501.
Texto completoALBERTI, STEFANO. "Geological analysis and numerical modelling of La Saxe landslide (Courmayeur) to improve understanding of geomorphological and geotechnical mechanisms and of the potential landslide evolution". Doctoral thesis, Università degli Studi di Milano-Bicocca, 2019. http://hdl.handle.net/10281/241657.
Texto completoRockslides are characterized by slow to extremely slow displacement rates in their initial phases or for their entire evolution. They frequently occur in foliated metamorphic rocks. Field and monitoring evidence show that deformation is predominantly localized along a shear zone. Mineralogic, grain size and fabric characteristics of the shear zone control its behavior and the possible evolution of the rockslide from a slow creeping to a fast moving one. In this thesis we investigate the shear zone behavior and evolution through conventional (direct shear, standard uniaxial compression and triaxial test) and unconventional laboratory testing (with an ring shear apparatus). We try to merge mineralogic data with material degradation and their role in the transition from slow to fast evolution due to creep phenomena, the change in material behavior with shear displacement and velocity. The tests were carried out on samples collected from boreholes through cataclastic shear zones within the Mont de La Saxe (MLS) rockslide, Valle d’Aosta region, Italy, at the extreme termination of a Deep-seated Gravitational Slope Deformations. The rockslide volume is of about 8x106 m3, and it extends between 1,400 and 1,870 m a.s.l., over area of 150,000 m2. This landslide is located close to Entréves and La Palud (Courmayeur municipality) villages and to the Mont Blanc highway that connects Italy to France through a tunnel. Laboratory tests were also performed on samples from the Chervaz rockslide (Valle d’Aosta region) located in a different rock suite (e.g. serpentine schist with phyllosilicates). The MLS shear zone contained both phyllosilicates (at least 20%) and graphite minerals (about 10%) which can control frictional properties. Furthermore, grain size reduction has been observed during slow ring shear testing together with particles rearrangement. Frictional and viscous characteristics, such as the tangential displacement increment before the steady state and the tertiary creep behavior, have been derived. The long-term monitoring of this instability started on 2009 and during the following years has been improved. The monitoring system is composed by ground surface (GB-InSAR, optical targets, TLS surveys, GPS network) and deep-seated equipment (inclinometers, piezometers and DMS probes). Such an extensive monitoring is – probably – a unique case in the Alps. A clear seasonal behavior has been observed, especially during snow-melt season when the rockslide shows a massive increment of displacements (e.g. 2012, 2013 and especially 2014). An addition a case study was selected, the Ruinon rockslide (upper Valtellina, Italian Alps) because of the long-term available dataset (since 2006). A statistical analysis of monitoring data has been completed, in order to characterize to behavior of the rockslides through time and to propose a new approach to define Early Warning displacement rate thresholds. Finally, after the experimental campaign and the deep analysis of monitoring data, a mathematical model, based on the Perzyna’s delayed plasticity theory, in which the hardening rule considers the degradation process, has been developed. The material parameters were calibrated on the experimental results previously obtained and using the monitoring data. The numerical simulations through this model give the evolution of the kinematic variables (displacement, velocity and acceleration) during the experimental results. The results contribute new knowledge regarding the shear zone development and evolution and also provide an improved understanding of these mechanisms by developing one of the first high quality data sets that combines new laboratory tests and field data able to develop a model in order the landslide forecasting. Finally, the study provides a new approach to define Early Warning displacement rate thresholds for slope failures.
Forward, Troy Andrew. "Quasi-Continuous GPS Steep Slope Monitoring: A Multi-Antenna Array Approach". Thesis, Curtin University, 2002. http://hdl.handle.net/20.500.11937/409.
Texto completoMa, Ning. "On the seismic response in a large deep-seated landslide in southwest Japan-with special focus on the topographic and geological effects-". Kyoto University, 2019. http://hdl.handle.net/2433/242901.
Texto completoForward, Troy Andrew. "Quasi-Continuous GPS Steep Slope Monitoring: A Multi-Antenna Array Approach". Curtin University of Technology, Department of Spatial Sciences, 2002. http://espace.library.curtin.edu.au:80/R/?func=dbin-jump-full&object_id=11914.
Texto completoResults from an extensive field trial of this system on a deforming high-wall of an open-pit mine indicate that approximately 135mm of displacement occurred over the 16-week field trial. The precision of the coordinate time-series for surface stations approaches ±4.Omm and ±5.4mm in the horizontal and height components respectively. For sub-surface stations next to the mine wall, coordinate precision has been determined as ±4.9mm.component and ±7.6mm in the height component respectively.
Ruggles, Samantha Anna. "Quantifying Computer Vision Model Quality Using Various Processing Techniques". BYU ScholarsArchive, 2016. https://scholarsarchive.byu.edu/etd/6066.
Texto completoAmpezzan, Daniele. "Three-dimensional numerical modelling of the Passo della Morte landslide (UD, Italy) for the design of risk mitigation measures". Master's thesis, Alma Mater Studiorum - Università di Bologna, 2018.
Buscar texto completoOsawa, Hikaru. "Seasonal transition of a hydrological regime in a reactivated landslide underlain by weakly consolidated sedimentary rocks in a heavy snow region". Kyoto University, 2018. http://hdl.handle.net/2433/232255.
Texto completoGodois, João Vítor da Silva. "Estudo do comportamento de um escorregamento ativo na Serra da Cantareira - SP". Universidade de São Paulo, 2011. http://www.teses.usp.br/teses/disponiveis/3/3145/tde-16032012-113207/.
Texto completoThis paper presents a study on a rotational movement in a colluvial soil mass located at Vila Albertina, northern region of São Paulo City. The main purpose of this work is to study the processes of instability related to rainfalls, conditions of flow and human actions that occurred at the site. It was intended to establish cause and effect relations pluviometric events have over the stability of the slope. It also studies alterations caused by men and water infiltration conditions on the land. A historical survey of ground sliding data on the region since the 1930s was gathered. This survey was composed of retrieved material such as aerial photographs, satellite images and topographic plans reconstitutions of the location. By means of this study, it was possible to verify that the slope started to be modified since the1940s, with a possible attempt of granite rocks exploitation. In the 60s, a factory was built on the bottom of the slope. Nowadays, the soil of this slope, which is in movement, is invading the courtyard of this factory. In the 70s, the sliding area started to be occupied by inhabitants, who built their homes on this slope. This disorderly occupancy accelerated the instability of the slope; until 2004, 600 families were living in the location. In the beginning of the 80s, the slope presented considerable movements. In order to stop them, contention constructions were executed, as well as re-sloping, installation of deep drains and superficial drainage by channels and hydraulic stairs. Still in the 80s, a great layer of the slopes soil was taken to cover Vila Albertinas sanitary landfill, located at land nearby. This removal left part of the ground plain, causing an accumulation of pluvial water. The pluvial water, which would superficially drain, started to infiltrate into the ground. To characterize and acquire the regions soil resistance parameters, three undisturbed samples were collected: one at the top of the sliding and two at the bottom of the slope. In this area, colluvial and a more recent residual soil were identified. The slope was monitored by superficial indicators, tensiometers and inclinometers that were also used to measure the water level.
Li, Lihua [Verfasser]. "Separablity of deformations and measurements noises of GPS time series with modified Kalman filter for landslide monitoring in real-time / Lihua Li". Bonn : Universitäts- und Landesbibliothek Bonn, 2020. http://d-nb.info/1204561966/34.
Texto completoLi, Lihua [Verfasser]. "Separablity of deformations and measurement noises of GPS time series with modified Kalman filter for landslide monitoring in real-time / Lihua Li. Landwirtschaftliche Fakultät". Bonn : Universitäts- und Landesbibliothek Bonn, 2011. http://d-nb.info/101955004X/34.
Texto completoYamin, Moh'd. "LANDSLIDE STABILIZATION USING A SINGLE ROW OF ROCK-SOCKETED DRILLED SHAFTS AND ANALYSIS OF LATERALLY LOADED DRILLED SHAFTS USING SHAFT DEFLECTION DATA". University of Akron / OhioLINK, 2007. http://rave.ohiolink.edu/etdc/view?acc_num=akron1196960547.
Texto completoKandawasvika, Admire M. [Verfasser], Wolfgang [Akademischer Betreuer] Reinhardt y Lars [Akademischer Betreuer] Bernard. "On Interoperable Management of Multi-Sensors in Landslide Monitoring Applications / Admire M. Kandawasvika. Universität der Bundeswehr München, Fakultät für Bauingenieur- und Vermessungswesen. Gutachter: Wolfgang Reinhardt ; Lars Bernard. Betreuer: Wolfgang Reinhardt". Neubiberg : Universitätsbibliothek der Universität der Bundeswehr München, 2009. http://d-nb.info/1068485590/34.
Texto completoBenoît, Lionel. "Positionnement GPS précis et en temps-réel dans le contexte de réseaux de capteurs sans fil type Geocube : application à des objets géophysiques de taille kilométrique". Thesis, Paris, Ecole normale supérieure, 2014. http://www.theses.fr/2014ENSU0014/document.
Texto completoWireless Sensor Networks (WSN) allow a multi-parameters monitoring of small extend areas thanks to cooperative data acquisition, transfer and processing. In order to combine WSN with a precise positioning of the receivers within the network using single frequency GPS modules, the Geocube has been developed by the French National Institute of Geographic and Forest Information (IGN-France). The first part of this work focused on GPS data management and processing to allow the relative positioning of the Geocubes within a local network. To this end, a processing method customized for Geocube data and WSN environment was developed. It is based on the use of GPS carrier phase double differences and a Kalman filtering. Due to the basic GPS antenna used into the Geocube to minimize its price and its size, multipath affect position time series. Various strategies are proposed for multipath mitigation, and finally a sub-centimeter to millimeter level accuracy is reached for relative positioning depending on measurement conditions.The second part of this work was devoted to the use of Geocube networks for geophysical structures monitoring. Two test sites were selected: the Super-Sauze landslide (Ubaye valley, Alpes de Haute-Provence, France) and the Argentière glacier (Mont-Blanc massif, Haute-Savoie, France). The dynamics of the studied areas was investigated at a sub-daily time scale thanks to the high accuracy and the high time resolution of positioning time series derived from Geocubes. In addition, positioning data were acquired quite everywhere a deformation measurement was needed thanks to the low-cost of Geocubes and their easy set up
Чебан, В. Д. "Комплекс геофізичних методів прогнозування зсувів на прикладі Закарпаття". Thesis, Івано-Франківський національний технічний університет нафти і газу, 2002. http://elar.nung.edu.ua/handle/123456789/3976.
Texto completoЗащищается положение о том, что развитие оползнеобразования тесно связано не только с общеизвестными факторами, но и с динамикой неотектонических движений, как проявления глобальных геодинамических процессов, и проявлениями сейсмической активности, что обосновано анализом связей количества, размеров оползней и других статистических показателей, которые их характеризуют, с местоположением оползневых участков по отношению к известным структурно-тектоническим зонам Закарпатья, которым свойственны различные уровни интенсивности вариаций естественного импульсного электромагнитного поля Земли. На этом основании предлагается реализовать районирование территории Закарпатья по склонности к активизации оползнеопасных процессов. В работе теоретически обосновано механизм образования слоя динамических деформаций. Показано, что подготовка оползней в значительной мере обеспечивается развитием деформационных процессов в этом слое, вследствие чего образуется поверхность скольжения. Изучение динамических изменений в ПІДД при обеспечении их регистрации высокоточными геофизическими методами является основанием мониторинга оползневых процессов. Предложена новая технология работ методом естественного импульсного электромагнитного поля Земли, которая обеспечивается использованием разработанного прибора РХІНДС-ПМ, усовершенствованной методикой полевых работ, системой обработки данных полевых наблюдений в соответствии с предложенным алгоритмом, что позволяет использовать данный метод для режимных наблюдений как составной части системы мониторинга оползней. В комплексе геофизических методов для исследования оползнеопасных участков основным становится метод зондирования становлением электромагнитного поля в ближней зоне благодаря разработке принципиально новой электроразведочной станции “Стадія-М” для изучения верхней части разреза, которая обеспечивает получение количественных параметров для расчета пространственно-временных изменений физико-механических свойств пород и устойчивости оползней.
It is advocated that the development of the landsliding is closely connected not only with well known causes but also with dynamics of the neotectonic movements as manifestation of global geodynamic processes and seismic activity that is proved by analysis of the connection of quantity and sizes of landslides and other statistic indexes which characterize them with the localization of the landslides area in connection with know structural-tectonic zones of the Transcarpathians with intrinsic different levels of the intensity variation of natural impulsive electromagnetic field of the Earth. On this base it is propose to realize the zoning of the Transcarpathian territory on predisposition to the activization of the landslide hazard processes. It is grounded the mechanism of the layer dynamic deformation origin It is shown that preparation of the landslides to certain degree is ensured by deformation processes in this layer. As a result the slikenslides are forming. The study of the dynamic changes in LDD by their registration of high accurate geophysical methods is the base of monitoring of landslide processes. It is proposed of the new work technology by using the methods of the natural impulsive electromagnetic field of the Earth which ensure by worked out equipment RHINDS - PM, improved field methods, system of the field data elaboration according to proposed algorithm that allow to use this method for the regime investigations as part of landslide monitoring. The method of sounding by adjusting of the electromagnetic field in dip zone due to the working out of principal new electroprospecting station “Stadia - M” for the study of the upper part of the section which ensure the gathering qualitative parameters for the calculation of the space-time changes of the physic-mechanic parameters of the rocks and stability of the landslides became the main one in the complex of the geophysical methods of landslide hazard parts.
Tonnellier, Alice. "Ecoute sismique des glissements de terrain dans les roches argilo-marneuses : détection et identification des sources intervenant dans la progression des glissements". Phd thesis, Université de Strasbourg, 2012. http://tel.archives-ouvertes.fr/tel-00873617.
Texto completoTang, Tien Yu y 唐天佑. "Machine Vision and FPGA Based Landslides Monitoring System". Thesis, 2011. http://ndltd.ncl.edu.tw/handle/36545816392530787769.
Texto completo聖約翰科技大學
電子工程系碩士班
99
Taiwan climate have typhoon and mudslide ,This paper Proposes innovative image-based monitoring methods,Using a single image to achieve monitoring, measuring displacement and direction. The method of landslide monitoring system is not measuring land appearance displacement, so do not compare the before and after image to calculate the landslide displacement. And this system does not need high-performance computer and DSP system, it has some advantages include: simple structure, high processing speed, low cost and low power consumption. This research is coming from our former research IBDMS (Image-Based Distance Measurement System), using a visible laser projector projection for a long distance. Set a “coordinates scale board” in analyze zone, it will generate a laser spot on “coordinates scale board”. The CCD camera is setting behind the “coordinates scale board” to capture the image, to calculated landslide displacement and direction in 50-200 meters away by using some simple formulas.
Dantal, Vishal S. "Wireless Monitoring of Railway Embankments". 2009. http://hdl.handle.net/1969.1/ETD-TAMU-2009-12-7468.
Texto completoFRANGIONI, SARA. "Applications of sar interferometry for monitoring ground deformations and engineering infrastructures". Doctoral thesis, 2015. http://hdl.handle.net/2158/1002203.
Texto completoFan, Kai-chih y 范凱智. "The Seismic Prospecting with Micro Seismic Monitoring Property Variation of Landslides". Thesis, 2007. http://ndltd.ncl.edu.tw/handle/50220211178912238727.
Texto completo國立聯合大學
防災科技研究所
95
This research attempts to test the feasibility of the active wave detecting with passive natural seismic wave monitoring the property variation of slope-landside in the backyard of the Department of Civil Engineering of the school, and in two mountain fields of Tongluo Jiuhua and Sanyi Huoyan. The active wave seimic prospecting is used to detect the waveform, spectra and wavespeed of the site earth conditions, while the natural seismism is motoring those of waveform and spectra only. The active-wave results show that the seismic refracted inversion method is suitable for predicting the wave speed of the surface layer, and the active wave is suitable for detecting the property variation of slope-landslides because the waveform, spectra and wavespeed are stable under the same site conditions, but changeable under different site conditions such as torrential rains or debris flows. Also we found that the P-wave velocities of surface layer is slower about one third in the sunny day than those in the rainy day, and the energy evolution manner from solid debris state to soft debris state.The natural micro seismic monitoing results also show the energy evolution process that the natural frequencies of the earth spectra is more concentrated and higher in the dry debris, then is less concentrated and dispering when beginning raining, and then is reconcentrated at lower frequencies less about 10Hz after large raining such that the surface earth is tend to saturated. Towards the research direction, the methods may help monitor and prewarn the landslide or debris flow in the future. Keyword: seismic prospecting, micro seismic wave , active detection , passive monitor, spectra.
Montalti, Roberto. "Regional scale satellite monitoring for hydrogeological risk reduction". Doctoral thesis, 2021. http://hdl.handle.net/2158/1238084.
Texto completoSCANDALE, SALVATORE. "Effetti dei movimenti di versante sui rivestimenti di una galleria". Doctoral thesis, 2016. http://hdl.handle.net/11573/937627.
Texto completoGracchi, Teresa. "Wireless sensor networks for landslide monitoring: application and optimization by visibility analysis on 3D point clouds". Doctoral thesis, 2020. http://hdl.handle.net/2158/1190819.
Texto completoJiang, Shan-Hong y 江山宏. "Monitoring and Assessment of Vegetation Recovery for Earthquake-induced Landslides at the Jou-Jou Mountain Area". Thesis, 2005. http://ndltd.ncl.edu.tw/handle/27101503740341175166.
Texto completo明道管理學院
環境規劃暨設計研究所
94
The earthquake occurred on September 21, 1999 caused not only heavy casualties and extensive damage to buildings, but also a large number of landslides in central Taiwan. Due to scattered distribution of landslides, satellite images were used to rapidly monitor and evaluate the change of the large-scale landslides. Currently, the Jou-Jou Mountain area was proposed as a Nature Reserve Area by the Taiwan Forestry Bureau to restore the natural landscape and ecosystem. There have been over six years since earthquake occurred. It is essential to assess the change of landslide sites. The objectives of this study are to analyze multi-temporal SPOT images from 1999 to 2003 years, and monitor the change and vegetation recovery condition of landslide sites by using Normalized Difference Vegetation Index (NDVI), image change analysis and vegetation recovery rate (VRR). The analyzed results show that the sites of landslide have been gradually restored, the areas decreased from 958.359 ha on September 27, 1999 to 163.672 ha on July 20, 2003. The corresponding VRR has been restored to 70.46% on July 20, 2003 without human interference, which shows that nature itself has quite robust vegetation restoration ability. Additionally, the landslide change evaluation also shows that there are over 84.921 ha of enlarging landslide sites identified on July 20, 2003, most of which primarily concentrated on ridgelines and concave river bank. Using multi-temporal SPOT satellite images can effectively assess and monitor the landslide and its VRR for the reference of decision making and policy planning in the landslide area.
Jian, Ji-Hao y 簡濟豪. "Development of the integrated monitoring system of IoT and TDR for shallow and deep-seated landslides". Thesis, 2019. http://ndltd.ncl.edu.tw/handle/bhebt8.
Texto completo國立中央大學
土木工程學系
107
The automatic monitoring systems are gradually concerned for disaster prevention in Taiwan recently. Time Domain Reflectometry (TDR) is one of valuable technique for landslide monitoring. It is a passive-based monitoring method which provides multi-functions, such as water level, bridge scour, landslide, and suspended sediment concentration (SSC), based on a single TDR device via a multiplexer. In addition, the Real Time Kinematic (RTK) based single frequency GPS sensor can provide the centri-meter for the surface displacement and direction of the landslide. Thus, this study integrate the low-cost monitoring device with single frequency GPS three-axis accelerometer for surface displacement monitoring, as well as the TDR for sliding surface monitoring. Consequently, the proposed monitoring system not only can provide diverse monitoring data at field-side, but also have three thresholds for early waring of the landslide. Furthermore, the Open Geospatial Consortium (OGC) provided SensorThings API, which has a standardized definition for the sensor description, observed position, and observed feature. Because it is based on JSON and Restful proctols, the content of SensorThings API is lighter and more liberal than Sensor Observation Service (SOS). Besides, it realizes data interoperable way by providing web service. This study also improved a middleware, which is between SOS and the existing TDR monitoring platform, by providing TDR heterogeneity data interoperability via SensorThings API finally.
Kan, Chih-Wen y 甘志文. "Two Applications of the Source-Scanning Algorithm: Identifying Earthquake Rupture Planes and Near-Real-Time Monitoring Landslides and Mud/Debris Flows". Thesis, 2011. http://ndltd.ncl.edu.tw/handle/36374477702438764776.
Texto completo國立中正大學
應用地球物理研究所
99
Taiwan is located not noly in the tectonic collision zone between Eurasia plate and Philippine sea plate but also in the most active tropical cyclone region, so that many nature disasters occur, such as earthquakes, landslides and debris flows (LMDF), storms, floods and so on. These natural disasters often cause damages to lives and properties and economic loss, so how to treat these disasters is an important subject. This dissertation will study and discuss earthquakes and LMDF, respectively. Identifying the rupture plane of an earthquake doublet is a very challenging problem. Because the pair of events often occurs in close space and time with almost the same magnitude, most long-period waveforms of an earthquake doublet are severely tangled and thus unsuitable for conventional waveform inversion methods. The SSA identify a seismic source based on brightness function, defined as the summation of the normalized waveform amplitudes at the predicted arrival time at all stations. By illuminating the spatiotemporal distribution of asperities in an earthquake’s source process, we are able to constrain the orientation of the rupture propagation that, in turn, leads to the identification of the fault plane. In this study, I try to resolve this issue, not only on Ila earthquake doublet of 2005 March 5 but also on Jiashian earthquake of 2010 March 4, by utilizing the SSA. Finally, I design an automatic processing tool to identify the rupture plane of earthquake, so as to provide more clear fault rupture structures for Taiwan. The typhoon, Morakot, passed Taiwan during 7 to 9 August 2009 and dumped as much as 1800 mm of rain for the island and caused heavy life and economic loss. During typhoon Morakot’s passage across Taiwan, many LMDF events were detected by the regional broadband seismograph network. In this study, I find that the first character of signals is the lack of definitive arrivals of seismic phases such as P or S. The second is the predominant band of instantaneous frequencies between 0.5 and 5 Hz. We also determined locations by Source-Scanning Algorithm (SSA) without clear arrivals of P or S. We also set up the LMDF Automatic Monitoring System, built with the regional broadband seismograph network, and issued a LMDF report in 2 and a haf seconds. We hope that this system can save a lot of LMDF victims.
Ferreira, Nelson John. "Risk to buried gas pipelines in landslide areas". 2016. http://hdl.handle.net/1993/31661.
Texto completoOctober 2016