由於數據、模型等的尺度依賴性,尺度不匹配可能導致錯誤的結論。尤其在相互作用的地理過程研究,尺度適宜性對認知地理過程起著至關重要的作用。本文結合珠三角地區的氣象場和空氣品質過程模擬,對地理過程研究中的尺度適宜性問題進行了研究。 / 首先,基於尺度概念的定義,本文提出了地理過程研究中的四組尺度適宜性問題:多地理過程層、維度層、類型層和組成成分層。分析了其可操作級別以及評估流程和指標。 / 第二,在WRF模型中引入多解析度地形數據以研究數據與模型在氣象過程模擬的尺度適宜性。結果表明由於DEM數據與模型的尺度不適宜,可能對氣象變數的模擬帶來較大偏差。而3和30秒解析度的DEM數據與1千米解析度的模型可以較好地模擬香港地區的氣象過程。本案例有助於通過考慮尺度適宜性來提高氣象場的模擬能力。 / 第三,針對模擬模型與地理過程的尺度適宜性,應用WRF和CALMET模擬了香港地區的氣象過程。結果表明CALMET可以更好地模擬香港的氣象過程,但是WRF與CALMET模擬結果的差異在空間分佈上是異質的,即複雜地表條件的區域CALMET模擬改進明顯。多尺度模擬的結果也表明了跨尺度地理過程的相互影響,有助於多尺度地理過程模擬與認知。 / 第四,設計並研發了面向空氣品質過程的多尺度虛擬地理環境系統。本系統應用LAMP架構,支援模擬知識的管理、跨平臺及分散式平行計算,亦考慮到模擬的尺度依賴性,將有助於多尺度空氣品質過程的模擬和認知。應用該系統,對多尺度SO₂濃度過程進行模擬並分析了香港當地排放源的分擔率。較低的本地分擔率表明香港政府仍需要加強區域合作來治理空氣污染問題。 / 本論文的研究不僅加強對地理過程研究中的多尺度以及尺度適宜性問題的認知,有助於分解和研究複雜的尺度適宜性問題,研究案例和原型系統亦將會對香港和珠三角地區的空氣品質過程理解和管理作出有益貢獻。 / Although multiscale data and models are taken into account to study geography, due to their scale dependence, the scale mismatching may cause adverse results. Thus, scale compatibility is becoming crucial to decode geographic process, especially, for the interactive geographic processes. This thesis focused on scale compatibility in geographic process with a case study of multiscale meteorological and air quality simulation in Hong Kong Special Administrative Region (HKSAR) and the Pearl River Delta (PRD) region. / Firstly, based on the conceptual definition of scale, this dissertation identifies four groups of scale compatibility in geographic process research: multiple process level, dimension level, type level and component level. By illustrating the different operational levels from the abstract to operational, the author proposes a procedure to implement scale compatibility with potential criteria. / Secondly, scale compatibility in the reproduction of meteorological process is investigated between multiscale digital elevation model (DEM) data and the Weather Research and Forecasting Model (WRF). The experiments show that: DEM data with 3 and 30 arc sec resolutions are relatively more compatible with the WRF model of 1 km resolution to reproduce the meteorological field over Hong Kong; and uncertainty arising from scale mismatching between DEM data and the model may account for 38% of the variance in certain meteorological variables (e.g., temperature). This case study not only helps to improve meteorological simulations by taking the issue of scale compatibility into account, but also explains the significance and implementation of scale compatibility in geographic process research. / Thirdly, this thesis utilizes multiscale meteorological models to study the scale compatibility between dynamic models and interested geographic process. We conduct validation through three steps: daily statistics, spatial comparison and time series. The results support the idea that CALifornia METeorological model (CALMET) is more compatible to reproduce the meteorology process in Hong Kong; however, the discrepancy between the WRF and CALMET is spatially heterogeneous, with larger improvement over the area of complex topography and land use. The results also give evidence about the cross-scale interaction to interpret multi-scale geographic process. / Fourthly, applying the above findings, this dissertation presents a multiscale Virtual Geographic Environments (VGE) system to integrate geographical analysis and multiscale models in a cross-platform and parallel manner. With database system and Linux-Apache-MySQL-Perl (LAMP) architecture, users can manage and retrieve modeling concerning both data and model parameterization to help them reach a consensus on the simulation results and share modeling knowledge. Scale compatibility among data, models and analysis is also considered in the system design. Aided with high-resolved and regulable emission inventory, such multiscale system enables the practical application for various scenarios. As a case study, the VGE is applied to simulate and analyze the SO₂ concentration process and local contribution in HKSAR. / Achievements of this dissertation should greatly contribute to a better cognition of multiscale issues and scale compatibility concerning geographic process, and the VGE is expected to contribute to better understanding and management of air quality for both HKSAR and PRD. / Detailed summary in vernacular field only. / Detailed summary in vernacular field only. / Detailed summary in vernacular field only. / Detailed summary in vernacular field only. / Detailed summary in vernacular field only. / Detailed summary in vernacular field only. / Zhang, Chunxiao. / Thesis (Ph.D.) Chinese University of Hong Kong, 2014. / Includes bibliographical references (leaves 135-157). / Abstracts also in Chinese.
| Identifer | oai:union.ndltd.org:cuhk.edu.hk/oai:cuhk-dr:cuhk_1077665 |
| Date | January 2014 |
| Contributors | Zhang, Chunxiao (author.), Lin, Hui , 1954- (thesis advisor.), Chinese University of Hong Kong Graduate School. Division of Earth System and GeoInformation Science, (degree granting institution.) |
| Source Sets | The Chinese University of Hong Kong |
| Language | English, Chinese |
| Detected Language | English |
| Type | Text, bibliography, text |
| Format | electronic resource, electronic resource, remote, 1 online resource (xvi, 157 leaves) : illustrations (some color), maps (some color), computer, online resource |
| Rights | Use of this resource is governed by the terms and conditions of the Creative Commons “Attribution-NonCommercial-NoDerivatives 4.0 International” License (http://creativecommons.org/licenses/by-nc-nd/4.0/) |
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