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    Please use this identifier to cite or link to this item: http://ir.lib.ncu.edu.tw/handle/987654321/93789


    Title: 量化人類活動對越南山區山洪爆發敏感度的影響;Quantifying the impact of human activities on flash flood susceptibility in Vietnam mountainous area
    Authors: 黃德榮;Vinh, Hoang Duc
    Contributors: 環境科技博士學位學程
    Keywords: 山洪;優化機器學習模型;人類活動;PSO;GA;越南;Flash flood susceptibility;optimize ML models;human activities;PSO;GA;Vietnam
    Date: 2024-01-29
    Issue Date: 2024-09-19 17:37:59 (UTC+8)
    Publisher: 國立中央大學
    Abstract: 背景
    山洪對越南山區的生命、基礎設施和財產構成嚴重且不斷升級的威脅。 二十年來,越南社會經濟快速發展,成為地區發展最快的國家之一。 然而,這一進步伴隨著城市化、土地覆蓋變化和天然森林覆蓋率的減少,加劇了山洪爆發的風險。
    本研究重點在於兩個目標:(1)增強機器學習(ML)模型效能以預測山洪暴發敏感度;(2)評估近二十年來人類活動對越南山區山洪暴發敏感度的定量影響。
    方法
    為了實現上述兩個目標,研究檢視了452個歷史山洪點,並分析了15個獨立因素,包括海拔、坡度、坡向、曲率、地形濕度指數(TWI)、河流功率指數(SPI)、流量累積、河流密度、到河流的距離、NDVI、NDBI、土地利用/土地覆蓋 (LULC)、降雨量、土壤類型、地質。 根據這些數據,該研究採用了各種機器學習演算法來預測山洪爆發的機率,並選擇了三種性能最高的機器學習演算法,包括支援向量機(SVM)、隨機森林(RF) 和XGBoost (XGB) 。 然後,我們使用粒子群優化 (PSO) 和遺傳演算法 (GA) 來優化這些機器學習演算法的超參數,從而提高了山洪預測的準確性。 採用九個模型進行評估,包括三個獨立的ML 演算法(SVM、RF、XGB)、三個帶有PSO 的整合模型(PSO-SVM、PSO-RF、PSO-XGB)和三個帶有GA 的模型(GA-SVM、GA-射頻、GA-XGB)。 使用表現出最高性能的演算法來建立 2001-2010 年和 2013-2022 年期間的山洪暴發敏感度圖。 為了評估人為影響,我們對土地利用模式的變化進行了詳細分析,並採用了歸一化植被指數(NDVI)和歸一化差異建成指數(NDBI)等指數。 這些因素在塑造兩個時期山洪發生機率的差異方面發揮了重要作用。
    結果
    機器學習演算法最佳化結果表明,整合模型的性能優於獨立模型,其中PSO-XGB、GA-XGB 和GA-RF 模型表現出卓越的性能,準確率分別達到0.939、0.927 和0.933,以及令人印象深刻的AUC-ROC值分別為 0.957、0.968 和 0.977。
    研究還表明,過去二十年人類社會經濟發展活動使高易發區和極高易發區發生山洪的機率分別增加了7.69%和4.01%,令人擔憂。
    結論
    這項開創性的努力引入了一套新穎且全面的關聯模型,為現有的洪水預測方法增添了重要價值。 此外,這些發現提供了切實而有力的證據,決策者可以利用這些證據來評估持續的社會經濟成長的影響。 此外,它們是製定永續發展計畫的重要基礎,該計畫優先考慮減輕未來不斷升級的山洪風險
    ;Background
    Flash floods pose a significant and escalating threat to life, infrastructure, and property in the mountainous regions of Vietnam. Over the past two decades, Vietnam has experienced rapid socio-economic development, making it one of the fastest-growing countries in the region. However, this progress has been accompanied by urbanization, land cover conversion, and reductions in natural forest coverage, exacerbating the risk of flash floods.
    This study focuses on two objectives: (1) Enhancing the Machine learning (ML) model performances to predict the flash flood susceptibility and (2) Evaluating the quantitative influence of human activities on flash flood susceptibility in recent two decades in mountainous of Vietnam.
    Methodology
    To solve the above two objectives, the study has examined 452 historical flash flood points and analyzed 15 independent factors encompassing elevation, slope, aspect, curvature, topographic wetness index (TWI), stream power index (SPI), flow accumulation, river density, distance to the river, NDVI, NDBI, land use/ land cover (LULC), rainfall, soil type, geology. From these data, the study has employed various machine learning algorithms to predict the probability of flash floods and selected three highest performance ML algorithms, including Support Vector Machines (SVM), Random Forests (RF), and XGBoost (XGB). Then, we elevated the flash flood prediction accuracy by optimize the hyperparameters of those ML algorithms using Particle Swarm Optimization (PSO) and Genetic Algorithms (GA). Nine models were employed for evaluation, including three standalone ML algorithms (SVM, RF, XGB), three ensembles models with PSO (PSO-SVM, PSO-RF, PSO-XGB), and three with GA (GA-SVM, GA-RF, GA-XGB). The algorithm that exhibits the highest performance was used to build the flash flood susceptibility maps for the period of 2001-2010 and 2013-2022. To assess the anthropogenic impact, we conducted a detailed analysis of changes in land use patterns and employed indices such as the Normalized Difference Vegetation Index (NDVI) and Normalized Difference Built-up Index (NDBI). These factors played a significant role in shaping the differences in flash flood probability between the two time periods.
    Results
    The results of optimizing ML algorithms demonstrated that ensemble models outperform standalone models, with the PSO-XGB, GA-XGB, and GA-RF models showcasing superior performance, boasting accuracy rates of 0.939, 0.927, and 0.933, along with impressive AUC-ROC values of 0.957, 0.968, and 0.977, respectively.
    The study also showed that human socio-economic development activities in the last two decades have increased alarmingly in the probability of flash floods by 7.69% and 4.01% in areas classified as high and very high susceptibility, respectively.
    Conclusion
    This pioneering endeavor introduces a novel and comprehensive suite of associative models, adding significant value to existing flood prediction methodologies. Besides, these findings provide tangible and robust evidence that policymakers can utilize to evaluate the implications of ongoing socio-economic growth. Furthermore, they serve as a critical foundation for formulating sustainable development plans that prioritize mitigating the future escalating risk of flash floods.
    Appears in Collections:[International Doctoral Program in Environmental Science and Technology (UST-EST)] Electronic Thesis & Dissertation

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