Spelling suggestions: "subject:"land used change modeling""
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An Examination of Distributed Hydrologic Modeling Methods as Compared with Traditional Lumped Parameter ApproachesPaudel, Murari 06 July 2010 (has links) (PDF)
Empirically based lumped hydrologic models have an extensive track record of use where as physically based, multi-dimensional distributed models are evolving for various engineering applications. Despite the availability of high resolution data, better computational resources and robust numerical methods, the usage of distributed models is still limited. The purpose of this research is to establish the credibility and usability of distributed hydrologic modeling tools of the United States Army Corps of Engineers (USACE) in order to promote the extended use of distributed models. Two of the USACE models were used as the modeling tools for the study, with Gridded Surface and Subsurface Hydrologic Analysis (GSSHA) representing a distributed and with Hydrologic Engineering Center-Hydrologic Modeling System (HEC-HMS) representing a lumped model. Watershed Modeling System (WMS) was used as the pre- and post-processing tool. The credibility of distributed models has been established by validating that the distributed models are efficient in solving complex hydrologic problems. The distributed and lumped models in HEC-HMS were compared. Similarly, the capabilities of GSSHA and lumped models in HEC-HMS in simulating land use change scenario were compared. The results of these studies were published in peer-reviewed journals. Similarly, the usability of the distributed models was studied taking GSSHA-WMS modeling as a test case. Some of the major issues in GSSHA-modeling using WMS interface were investigated and solutions were proposed to solve such issues. Personal experience with GSSHA and feedback from the students in a graduate class (CE531) and from participants in the USACE GSSHA training course were used to identify such roadblocks. The project being partly funded by the USACE Engineering Research and Development Center (ERDC) and partly by Aquaveo LLC, the research was motivated in improving GSSHA modeling using the WMS interface.
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Integrating cognitive models of human decision-making in agent-based models : an application to land use planning under climate change in the Mekong river delta / Intégration de modèles cognitifs de la prise de décision humaine dans les modèles à base d'agent : application à la planification de l'utilisation du sol dans le Delta du Mékong en tenant compte du changement climatiqueTruong, Chi Quang 05 December 2016 (has links)
L'objectif initial de cette thèse est d'apporter une solution à ce problème en proposant, premièrement, une approche cognitive basée sur le paradigme appelé Belief-Desire-Intention (BDI) pour représenter les processus de prise de décision des acteurs humains, et deuxièmement, une validation de cette approche dans le contexte d'un modèle complet de changement d'usage des sols dans lequel la plupart des facteurs cités ci-dessus sont également simulés. Le résultat de ce travail est une approche générique qui a été validée sur un modèle intégrant le changement d'usage des sols d'une région située dans le Delta du Mékong au Vietnam. Nos contributions principales sont les suivantes : Intégration d’une architecture BDI au sein d'une plateforme de modélisation à base d'agents (GAMA) ;Conception d’un cadre générique baptisé « Multi-Agent Based Land-Use Change » (MAB-LUC) permettant de modéliser et de simuler les changements d’usage des sols en prenant en compte les décisions des agriculteurs ;Proposition d’une solution permettant d’intégrer et d’évaluer les facteurs socio-économiques et environnementaux dans le cadre de la planification agraire et d’intégrer MAB-LUC dans le processus existant proposé par la FAO.Ce travail, au-delà du cas d’étude concernant le Delta du Mékong, a enfin été conçu de façon générique afin que la méthodologie utilisée puisse être généralisée à la modélisation de systèmes socio-écologiques où les facteurs humains doivent être représentés avec précision. / The initial goal of this thesis has been then to address this problem by proposing, on one hand, a cognitive approach based on the Belief-Desire-Intention (BDI) paradigm to represent the decision-making processes of human actors in agent-based models and, on the second hand, a validation of this approach in a complete land-use change model in which most of the factors cited above have also been simulated.The outcome of this work is a generic approach, which has been validated in a complex integrated land-use change model of a small region of the Vietnamese Mekong Delta. Our main contributions have been:The integration of the BDI architecture within an agent-based modeling platform (GAMA); The design of the Multi-Agent Based Land-Use Change (MAB-LUC) framework that can take into account the farmers’ decision-making in the land-use change processes;The proposal of a solution to assess the socio-economic and environmental factors in land-use planning and to integrate the MAB-LUC framework into the land-use planning process of. I conclude by showing that this work, designed in a generic fashion, can be reused and generalized for the modeling of complex socio-ecological systems where individual human factors need to be represented accurately.
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