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1.
A New Combined Assessment of Mixed Uncertainty in Spatial Models: Conceptualization and Implementation 
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下载免费PDF全文 Uncertainty quantification is not often performed in spatial modeling applications, especially when there is a mixture of probabilistic and non‐probabilistic uncertainties. Furthermore, the effect of positional uncertainty is often not assessed, despite its relevance to geographical applications. Although there has been much work in investigating the aforementioned types of uncertainty in isolation, combined approaches have not been much researched. This has resulted in a lack of tools for conducting mixed uncertainty analyses that include positional uncertainty. This research addresses the issue by first presenting a new, flexible, simulation‐oriented conceptualization of positional uncertainty in geographic objects called F‐Objects. F‐Objects accommodates various representations of uncertainty, while remaining conceptually simple. Second, a new Python‐based framework is introduced, termed Wiggly and capable of conducting mixed uncertainty propagation using fuzzy Monte Carlo simulation (FMCS). FMCS combines both traditional Monte Carlo with fuzzy analysis in a so‐called hybrid approach. F‐Objects is implemented within the Wiggly framework, resulting in a tool capable of considering any combination of: (1) probabilistic variables; (2) fuzzy variables; and (3) positional uncertainty of objects (probabilistic/fuzzy). Finally, a realistic GIS‐based groundwater contamination problem demonstrates how F‐Objects and Wiggly can be used to assess the effect of positional uncertainty. 相似文献
2.
Andrew S. Foy Laurence W. Carstensen Stephen P. Prisley James B. Campbell Randel L. Dymond 《Transactions in GIS》2015,19(4):604-618
Advances in computer technologies have improved the quality of maps, making map comparison and analysis easier, but uncertainty and error still exist in GIS when overlaying geographic data with multiple or unknown confidence levels. The goals of this research are to review current geospatial uncertainty literature, present the Error‐Band Geometry Model (EBGM) for classifying the size and shape of spatial confidence intervals for vector GIS data, and to analyze the interpretability of the model by looking at how people use metadata to classify the uncertainty of geographic objects. The results from this research are positive and provide important insight into how people interpret maps and geographic data. They suggest that uncertainty is more easily interpreted for well defined point data and GPS data. When data is poorly defined, people are unable to determine an approach to model uncertainty and generate error‐bands. There is potential for using the EBGM to aid in the development of a GIS tool that can help individuals parameterize and model spatial confidence intervals, but more research is needed to refine the process by which people use the decision tree. A series of guiding questions or an “uncertainty wizard” tool that helps one select an uncertainty modeling approach might improve the way people apply this model to real‐world applications. 相似文献
3.
地理要素的时空变化分析对于了解和掌握地表的规律性有着重要的作用。利用地面站点观测、实地调查等传统方式获取数据,对地理要素进行时空变化分析是最常用的方法。但该类方法往往表现的是"点尺度"观测,不能在大尺度情况下准确地反映地表的时空变化信息。遥感卫星能以一定的时间间隔获得空间连续的对地"面尺度"观测数据,然而其特定的空间和时间分辨率使其获取的地表信息仍十分有限。同时地表的空间异质性和个别地表短时间内的快速变化,使得利用遥感数据对地理要素进行时空变化分析时,时空变化分析结果会随观测尺度而发生改变。本文从空间尺度和时间尺度两方面综述遥感数据时空尺度对地理要素的时空变化分析产生的影响和原因,并针对这些问题总结了减小时空尺度对结果不确定性影响的现行方法。可以通过多源遥感协同观测和反演、尺度转换、空间建模等方法减小空间尺度引起的不确定性;通过联合多时相遥感数据的方法减小时间尺度引起的不确定性。在实际应用中,应根据所观测地理要素的实际情况,综合分析选择合适的方法。 相似文献
4.
空间思维是地理科学认知学习与研究的基本思维模式。为满足新媒体融合背景下地理信息科学专业的素质人才培养需求,本文设计了包括地理空间模拟体验、空间信息地图绘读、隐喻信息语义认知和地理系统综合分析等针对空间思维能力训练的教学内容;明晰了地理空间思维在信息感知与整理、隐含信息挖掘、信息表达视觉化、行业服务支撑、空间治理决策等新媒体信息深度挖掘方向上的应用。本文研究有利于本科学生充分利用新媒体学习工具、系统化专业知识体系和提高自身地理空间思维素养,可以为地理信息科学本科专业教学提供有益的探索。 相似文献
5.
Helen Couclelis 《Transactions in GIS》2003,7(2):165-175
Considerable effort has been devoted over the years to fighting uncertainty in geographic information in its different manifestations. Thus far, research on handling inaccuracy, fuzziness, error and related issues has focused for the most part on problems with spatial data and their direct products, typically representations of spatial objects or fields. This paper seeks to broaden the discussion of uncertainty in the geospatial domain by shifting the focus from information to knowledge. It turns out that there is a surprising number of things that we cannot know (or questions we cannot answer) that are not the result of imperfect information. Forms of not knowing are pervasive in domains as diverse as mathematics, logic, physics, and linguistics, and are apparently irreducible. This being the case it may help to explore how these realms of ignorance may affect our efforts. The paper distinguishes three different modes or forms of geospatial knowledge production, and argues that each of them has built–in imperfections, for reasons of logical principle and not just empirical fact. While much can and needs to be done to manage and resolve uncertainties where possible, I argue for accepting that uncertainty is an intrinsic property of complex knowledge and not just a flaw that needs to be excised. 相似文献
6.
GIS图上地理区域空间不确定性的分析 总被引:20,自引:1,他引:20
区域是GIS空间分析的基本单元。它是环境科学、土壤科学等领域中广泛存在的一类地理实体。这类实体抽象概括为GIS中空间目标时不可避免地带有模糊性。利用模糊集这个强有力的数学工具,首先基于场模型提出了表达GIS中模糊区域目标的方法,分析了其空间不确定性。继而,建立了模糊区域的形态描述模式,即模糊区域边界、内部和外部,并指出了Cohn给出的定义中的不足。在此基础上,对Egenhofer提出的九元组进行了扩展,构建了适合于描述确定和模糊区域目标间拓扑空间关系的模型。 相似文献
7.
Assessing representation error in point-based coverage modeling 总被引:2,自引:1,他引:2
Accurately representing geographic space in a digital environment continues to confound and challenge researchers. Carrying
out spatial analysis in a setting where geographic representation is subject to change poses problems to be addressed. In
this paper we examine spatial representation in the context of coverage-based location modeling. A geographic region can be
represented in a variety of ways. We present an evaluation of spatial representation in the location of facilities that provide
coverage oriented services. The analysis shows that the modeling results are sensitive to how spatial demand for service is
represented in a digital environment. We develop an approach for evaluating representational appropriateness. This research
contributes to spatial analysis integrated in geographic information system environment.
Received: 10 January 2001 / Accepted: 8 April 2002 相似文献
8.
The Nature of Uncertainty in Historical Geographic Information 总被引:8,自引:1,他引:8
Brandon Plewe 《Transactions in GIS》2002,6(4):431-456
While the presence of uncertainty in the geometric and attribute aspects of geographic information is well known, it is also present in temporal information. In spatiotemporal GIS databases and other formal representations, uncertainty in all three aspects of geography (space, time, and theme) must often be modeled, but a good data model must first be based on a sound theoretical understanding of spatiotemporal uncertainty. The nature of both uncertainty inherent in a phenomenon (often termed indeterminacy) and uncertainty in assertions of that phenomenon can be better understood through the Uncertain Temporal Entity Model , which characterizes the cause, type, and form of uncertainties in the spatial, temporal, and attribute aspects of geographic information. These uncertainties are the result of complexities and problems in two processes: the process of conceptualization, by which humans make sense of an infinitely complex reality, and measurement, by which we create formal representations (e.g. GIS) of those conceptual models of reality. Based on this framework, the nature and form of uncertainty is remarkably consistent across various situations, and is approximately equivalent in the three aspects, which will enable consistent solutions for representation and processing of spatiotemporal data. 相似文献
9.
在全国范围开展的地理国情监测是对国家基础地理信息的动态更新,对监测数据的科学分析及成果展示有利于提升数据的使用价值。本文论述了利用GIS空间分析功能和地统计学原理,对国情监测数据的变化信息进行综合制图,为地理国情监测专项成果的可视化表达提供了新的方法。 相似文献
10.
机载LiDAR技术作为一种新型的主动式空间观测技术,在快速获取空间三维地理信息方面具有不可估量的前景。然而,机载LiDAR系统获得的相邻航带点云数据在重叠区存在"漂移"问题,需要采用航带平差的方法实现不同航带点云数据之间的"无缝"拼接。针对LiDAR点云数据难以获取同名特征点来进行航带平差迭代初始值计算的问题,文中在总结航带平差迭代初始值求解方法的基础上,提出一种基于点与平面约束关系的最小二乘求解方法,提高初始值求解的准确性,并通过具体实例数据进行验证分析。 相似文献
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系统回顾了地理信息系统产生以来地理信息内涵发展与拓展的主要历程,指出地理信息的定义一直是在"空间+属性"的地图信息基本框架下逐步扩展,其发展历程经历了地图GIS、语义GIS、时空GIS和大数据GIS 4个不同的阶段,但仍无法满足时空大数据的分析和应用需求。从地理学研究的对象和内容出发,对地理学所需要的"地理信息"的内涵和外延进行了系统的梳理总结,提出了涵盖"空间定位""语义描述""属性特征""几何形态""演化过程""要素相互关系"的地理信息六要素表达模型。在地理定律和地理规律的指导下,面向地理现象空间分布、时空格局、演化过程、相互作用机理的集成表达、系统分析和高效管理,设计了六要素集成表达的几何代数统一GIS数据模型、地理规律与相互作用驱动的新型GIS数据结构、非结构化时空数据组织与存储等关键技术,为测绘地理信息走向地理科学信息提供了另一个理论基础与技术方法支撑,有助于提升GIS对地理格局、演化过程和要素相互作用等地理规律的组织、管理、表达和分析能力。 相似文献
13.
在现代生活中,无论我们多么依赖网络空间,人与地理空间的联系永远不会断绝.政府和企业的各类业务运转也是如此,在科研课题、销售运营、客户维护等工作中,涉及的数据成千上万,大多也与地理数据紧密相关.因此,挖掘地理数据中隐含的信息,提高人们对地理位置的认知程度,并以此为基础,为各领域提供与决策相关的信息非常有意义.本文中介绍的超图云GIS数据洞察软件,是基于地理信息云平台,使用新一代Web技术搭建的云GIS数据可视化和分析软件.通过其将业务数据在地图上可视化展示,并结合统计图表和地理信息系统专业空间分析工具,洞察地理数据中隐含的趋势和内在关系,为多种业务决策提供支撑.本文介绍了该软件的设计与实现. 相似文献
14.
A current research project is addressing the problem of finding appropriate geographical information by developing a (geo)information realization resource based upon the concepts of the Literate Traveller. It has as its main goal to provide tools for geographical knowledge building and exploration, by providing conventional spatial information plus geographical interpretation and appreciation artifacts. These artifacts are delivered in an interactive multimedia environment. This research examines the formulation of an initial prototype component to assist in providing geographical knowledge. The prototype is based on a study site in Townsville, Australia, and is being used as a vehicle to explore enhanced spatial information provision through the use of rich media. The research examines new ways to prospect for, discover and disseminate spatial knowledge within an intelligence‐briefing context. The paper reports on the concepts behind the design of the application developed for the test site, and presents initial findings from the early evaluation of the prototype. 相似文献
15.
Spatial signatures for geographic feature types: examining gazetteer ontologies using spatial statistics 总被引:1,自引:0,他引:1 下载免费PDF全文
下载免费PDF全文 Digital gazetteers play a key role in modern information systems and infrastructures. They facilitate (spatial) search, deliver contextual information to recommended systems, enrich textual information with geographical references, and provide stable identifiers to interlink actors, events, and objects by the places they interact with. Hence, it is unsurprising that gazetteers, such as GeoNames, are among the most densely interlinked hubs on the Web of Linked Data. A wide variety of digital gazetteers have been developed over the years to serve different communities and needs. These gazetteers differ in their overall coverage, underlying data sources, provided functionality, and geographic feature type ontologies. Consequently, place types that share a common name may differ substantially between gazetteers, whereas types labeled differently may, in fact, specify the same or similar places. This makes data integration and federated queries challenging, if not impossible. To further complicate the situation, most popular and widely adopted geo‐ontologies are lightweight and thus under‐specific to a degree where their alignment and matching become nothing more than educated guesses. The most promising approach to addressing this problem, and thereby enabling the meaningful integration of gazetteer data across feature types, seems to be a combination of top‐down knowledge representation with bottom‐up data‐driven techniques such as feature engineering and machine learning. In this work, we propose to derive indicative spatial signatures for geographic feature types by using spatial statistics. We discuss how to create such signatures by feature engineering and demonstrate how the signatures can be applied to better understand the differences and commonalities of three major gazetteers, namely DBpedia Places, GeoNames, and TGN. 相似文献
16.
利用质心作为参考点,并在空间方向锥形模型中添加了扩展不确定度的参数,用区间分析法,对多尺度下顾及不确定性的空间方向关系进行形式化描述,来适应尺度变化引起的空间关系不确定性的变化,以更好地描述空间方向关系。该模型使得方向关系的划分上有个平滑的过渡区,在方向概念的表达上更符合人的认知。 相似文献
17.
综合利用第一次全国地理国情普查数据、多时相遥感影像资料、基础地理信息数据,结合相关专题资料,利用空间分析、统计分析、地理相关分析等方法,开展水源地水域、植被、居民点、道路、点污染源及防治设施5个方面的专题分析,研究丹江口库区生态环境动态监测方法,为后续监测提供理论基础和技术指导;同时发挥地理国情普查成果的作用,为地理国情普查(监测)数据挖掘及信息服务应用积累经验。 相似文献
18.
铁路工程是带状工程,具有范围广、与地形地貌结合紧密的特点。传统BIM设计对海量模型及地理空间分析的支持较弱,难以解决大范围地理环境下铁路工程多专业集成的问题。本文以三维地理信息系统为基础,研究了大范围地理环境下面向铁路BIM多专业设计融合的关键技术,从铁路地理信息数据发布、地理环境下的线路设计、多专业BIM模型无缝拼接、海量模型数据的轻量化与显示策略等方面进行了深入地分析和研究,提出了一套完整的铁路设计BIM+GIS解决方案。在此基础上,构建了基于三维GIS的BIM空间信息平台,在西成高铁BIM试点工程中进行了应用和验证。 相似文献
19.
A key issue to address in synthesizing spatial data with variable-support in spatial analysis and modeling is the change-of-support problem. We present an approach for solving the change-of-support and variable-support data fusion problems. This approach is based on geostatistical inverse modeling that explicitly accounts for differences in spatial support. The inverse model is applied here to produce both the best predictions of a target support and prediction uncertainties, based on one or more measurements, while honoring measurements. Spatial data covering large geographic areas often exhibit spatial nonstationarity and can lead to computational challenge due to the large data size. We developed a local-window geostatistical inverse modeling approach to accommodate these issues of spatial nonstationarity and alleviate computational burden. We conducted experiments using synthetic and real-world raster data. Synthetic data were generated and aggregated to multiple supports and downscaled back to the original support to analyze the accuracy of spatial predictions and the correctness of prediction uncertainties. Similar experiments were conducted for real-world raster data. Real-world data with variable-support were statistically fused to produce single-support predictions and associated uncertainties. The modeling results demonstrate that geostatistical inverse modeling can produce accurate predictions and associated prediction uncertainties. It is shown that the local-window geostatistical inverse modeling approach suggested offers a practical way to solve the well-known change-of-support problem and variable-support data fusion problem in spatial analysis and modeling. 相似文献
20.
高分遥感智能解译是实现地理信息精细生成与快速更新的重要途径,从基于遥感开展精准地理应用的背景出发,解析了遥感信息产品生产与落地应用中的局限性,阐释了遥感回归地理应用问题的必要性以及其中“精(形态)”“准(内容)”图谱特征耦合的关键性。以地理学指导智能遥感研究为基本认识,提出了基于精细地理场景开展高分辨率遥感地学分析的发展方向和技术思路,以及时空/星地两个层面相协同的智能计算模式,并以中国贵州省关岭县石漠化耕地评价为应用案例,利用分区分层感知/时空协同反演/多粒度决策3个基础模型,在复杂山地区开展精准应用驱动的高分遥感协同计算。结合实验结果,通过对不规则网格空间表达、时序特征多模态重建、多源不确定性解析以及不确定性引导的迭代优化等关键科学问题的探讨分析,给出面向未来的探索方向和研究思路,为地理学指导下的智能遥感研究以及遥感支撑的精准地理应用提出发展路径。 相似文献