Requirements for Topology in 3D GIS

Topology and its various benefits are well understood within the context of 2D Geographical Information Systems. However, requirements in three-dimensional (3D) applications have yet to be defined, with factors such as lack of users' familiarity with the potential of such systems impeding this process. In this paper, we identify and review a number of requirements for topology in 3D applications. The review utilises existing topological frameworks and data models as a starting point. Three key areas were studied for the purposes of requirements identification, namely existing 2D topological systems, requirements for visualisation in 3D and requirements for 3D analysis supported by topology. This was followed by analysis of application areas such as earth sciences and urban modelling which are traditionally associated with GIS, as well as others including medical, biological and chemical science. Requirements for topological functionality in 3D were then grouped and categorised. The paper concludes by suggesting that these requirements can be used as a basis for the implementation of topology in 3D. It is the aim of this review to serve as a focus for further discussion and identification of additional applications that would benefit from 3D topology. © 2006 The Authors. Journal compilation © 2006 Blackwell Publishing Ltd

The need for improved management of the subsurface

The subsurface is used intensively to support economic stability and growth. Human interaction with the shallow subsurface ranges from exploitation of resources, accommodation of utilities, harnessing of energy (ground source heat pumps) and storage of waste. Current practice of managing these shallow subsurface zones is far from ideal. Many subsurface interventions are preceded by feasibility studies, predictive models or investigative measures to mitigate risks or predict the impacts of the work. However, the complex interactions between the anthropogenic structures and natural processes mean that a holistic impact assessment is often not achievable. By integrating these subsurface infrastructures within three dimensional framework models, a comprehensive assessment of the potential hazards in these shallow subsurface environments may be made. Some Geological Survey Organizations (GSOs) are currently developing subsurface management systems that will aid decision making in the shallow subsurface [1]. The British Geological Survey (BGS) is developing an open Environmental Modeling Platform [2] to provide the data standards and applications to link models, numerical simulations and ultimately socio-economic models so as to generate predictive responses to questions concerning sustainable us of the subsurface

3D attributed models for addressing environmental and engineering geoscience problems in areas of urban regeneration : a case study in Glasgow, UK

The City of Glasgow is situated on and around the lower floodplain and inner estuary of the River Clyde in the west of Scotland, UK. Glasgow’s urban hinterland once was one of Europe’s leading centres of heavy industry, and of ship building in particular. The industries were originally fed by locally mined coal and ironstone. In common with many European cities, the heavy industries declined and Glasgow was left with a legacy of industrial dereliction, widespread undermining, and extensive vacant and contaminated sites, some the infilled sites of clay pits and sand and gravel workings

Methods and standards development for three-dimensional mapping of the Antioch Quadrangle, Lake County, Illinois a pilot study

The Pilot Study for the Central Great Lakes Geologic Mapping Coalition (CGLGMC) focused on the Antioch Quadrangle, Lake County, Illinois developing a series of maps and digital products, several protocols for database development and maintenance and field procedures to acquire and integrate drilling and geophysical data from a quadangle area featuring complex glacial geology over a 25,000 year period.U.S. Geological Survey, Central Great Lakes Geologic Mapping CoalitionOpe

Trends and concerns in digital cartography

CISRG discussion paper ;

Database management and implementation for coal fire detection and monitoring in the Ruijgou Coalfield, Northwest China

Coal fire monitoring by aerospace remote sensing and GIS techniques is an advanced approach, which has been implemented in the Rujigou coalfield, northwest China. A database of several different types of data, including remote sensing images, results of geological surveys, etc., has been collected and assembled in a PC-based information system, which is being developed by the International Institute for Aerospace Survey and Earth Sciences (ITC). This coal fire monitoring and management information system (CoalMan) comprises of two main parts: one is the database with its management tools, and the tools for data processing and analysis form the other. This paper first introduces the structure of the CoalMan information system, presents the data types and contents of CoalMan database, then shows the data management methods. A complex data analysis package is outlined too, as the core of the information system

Solving the tasks of subsurface resources management in GIS RAPID environment

Purpose. Solving the tasks of subsurface resources management based on the created GIS RAPID geoinformation technology. Methods. Close spatial relationships of lineament network characteristics and earthquake epicenters were detected in 3 seismically active areas located in the mountainous regions of Central Europe. Digital elevation models (DEM) based on ASTER satellite surveys and earthquake epicenter data were used. The nature of spatial relationship of lineament network and vein ore objects was studied in the territory of Congo DR, in the Lake Kivu area using space imagery. Gold ore objects were searched and forecasted in Uzbekistan in the site of Jamansai Mountains. High- resolution imagery from QuickBird 2 satellite, geophysical field surveys, geological and geochemical data were used. Findings. It was found that a significant number of epicenters are located in areas of high concentration of “non-standard” azimuths lineaments – from 27 to 34% of the total number of lineaments. It was revealed that 59.6% of the epicenters are located within 10% of sites with the highest values of complex deformation maps; 50% of the areas with the highest values of these maps contain, on average, 89% of all earthquake epicenters. It was found that satellite image lineament concentration maps with “non-standard” azimuths reflect the spatial relationship with known deposits much better than the concentration map of all lineaments. It was detected that the total area of gold ore objects perspective sites is about 20 km2. Originality. The use of GIS RAPID in a number of earth’s crust areas has allowed to establish new regularities linking the networks of physical field and landscape lineament characteristics with ore bodies and earthquake epicenters localization. Practical implications. A new technology has been developed for solving geological forecasting and prospecting problems. The technology can be used to solve a wide range of practical problems, especially in difficult geological conditions when searching for deep objects weakly presented in external fields and landscape.Мета. Рішення задач надрокористування на базі створеної геоінформаційної технології ГІС РАПІД. Методика. Виявлення тісних просторових взаємозв’язків різноманітних характеристик мереж лінеаментів і епіцентрів землетрусів проводилося у 3 сейсмоактивних ділянках, розташованих в гірських районах Центральної Європи. Використовувалися цифрові моделі рельєфу (DEM), побудовані за зйомками зі супутника ASTER і дані по епіцентрах землетрусів. Дослідження характеру просторового взаємозв’язку мережі лінеаментів і жильних рудних об’єктів проводилися на території Демократичної Республіки Конго, в районі озера Ківу із використанням космічних зйомок. Дослідження пошуку та прогнозу золоторудних об’єктів виконувалися в Узбекистані на ділянці Джамансайскіх гір. Використовувалися високоточні космічні зйомки зі супутника QuickBird 2, зйомки геофізичних полів, геологічні та геохімічні дані. Результати. Виявлено, що значна частина епіцентрів приурочена саме до ділянок підвищеної концентрації лінеаментів “нестандартних” азимутів, складаючи від 27 до 34% загального числа лінеаментів. Встановлено, що 59.6% епіцентрів знаходяться всередині 10% території ділянок, що володіють найвищими значеннями комплексних карт деформацій; 50% території з найвищими значеннями цих карт вміщають, в середньому, 89% усіх епіцентрів землетрусів. Визначено, що карти концентрації лінеаментів космознімків з “нестанартними” азимутами значно краще відображають просторовий взаємозв’язок з відомими родовищами у порівнянні з картою концентрації всіх лінеаментів. Встановлено, що сумарна площа перспективних ділянок золоторудних об’єктів склала близько 20 км2. Наукова новизна. Застосування ГІС РАПІД на ряді ділянок земної кори дозволило встановити нові закономірності, що зв’язують характеристики мережі лінеаментів фізичних полів і ландшафту з локалізацією рудних тіл та епіцентрів землетрусів. Практична значимість. Розроблено нову технологію рішення прогнозних і пошукових геологічних завдань, яка може застосовуватися для вирішення широкого кола практичних задач, особливо у складних геологічних умовах при пошуках глибокозалягаючих об’єктів, що слабо виявляються в зовнішніх полях і ландшафті.Цель. Решения задач недропользования на базе созданной геоинформационной технологии ГИС РАПИД. Методика. Выявление тесных пространственных взаимосвязей разнообразных характеристик сетей линеаментов и эпицентров землетрясений проводилось в 3 сейсмоактивных участках, расположенных в горных районах Центральной Европы. Использовались цифровые модели рельефа (DEM), построенные по съемкам со спутника ASTER, и данные об эпицентрах землетрясений. Исследования характера пространственной взаимосвязи сети линеаментов и жильных рудных объектов проводились на территории Демократической Республики Конго, в районе озера Киву с использованием космических съемок. Исследования поиска и прогноза золоторудных объектов выполнялись в Узбекистане на участке Джамансайских гор. Использовались высокоточные космические съемки со спутника QuickBird 2, съемки геофизических полей, геологические и геохимические данные. Результаты. Выявлено, что значительная часть эпицентров приурочена именно к участкам повышенной концентрации линеаментов “нестандартных” азимутов, составляя от 27 до 34% общего числа линеаментов. Установлено, что 59.6% эпицентров находятся внутри 10% территории участков, обладающих наивысшими значениями комплексных карт деформаций; 50% территории с наивысшими значениями этих карт вмещают, в среднем, 89% всех эпицентров землетрясений. Определено, что карты концентрации линеаментов космоснимков с “нестанартными” азимутами значительно лучше отражают пространственную взаимосвязь с известными месторождениями по сравнению с картой концентрации всех линеаментов. Установлено, что суммарная площадь перспективных участков золоторудных объектов составила около 20 км2. Научная новизна. Применение ГИС РАПИД на ряде участков земной коры позволило установить новые закономерности, связывающие характеристики сети линеаментов физических полей и ландшафта с локализацией рудных тел и эпицентров землетрясений. Практическая значимость. Разработана новая технология решения прогнозных и поисковых геологических задач, которая может применяться для решения широкого круга практических задач, особенно в сложных геологических условиях при поисках глубокозалегающих объектов, слабо проявляющихся во внешних полях и ландшафте.The work is performed as a part of planned research of the geoinformation systems department of the Dnipro University of Technology. The results are obtained without any financial support of grants and research projects. The authors express appreciation to reviewers and editors for their valuable comments, recommendations, and attention to the work

Rapid Inventory of Earthquake Damage (RIED)

The 25 January 1999 Quindío earthquake in Colombia was a major disaster for the coffee-growing region in Colombia. Most of the damage occurred in the city of Armenia and surrounding villages. Damage due to earthquakes is strongly related to topographic and subsurface geotechnical conditions underneath structures and houses. The RIED project used aerial photographs to obtain a rapid inventory of the earthquake damage right after the seismic event. This inventory was subsequently used to identify any existing relation with subsurface- and topographic conditions. Hazard zonation maps were made on the basis of seismic response analysis of a three-dimensional model of the subsurface that has been created in the GIS. Also indicative zonation maps were created outlining potential areas where topographic amplification may occur. These seismic zonation maps delineate those areas that are most likely affected by subsurface and topographic resonance effects during a future and similar earthquake. The maps have been presented to the city planning authorities of Armenia so that reconstruction of the damaged areas can be carried out in such a way that high risk areas will be avoided or that structures and houses will be built according to the standards for high seismic risk areas

Seeing the invisible: from imagined to virtual urban landscapes

Urban ecosystems consist of infrastructure features working together to provide services for inhabitants. Infrastructure functions akin to an ecosystem, having dynamic relationships and interdependencies. However, with age, urban infrastructure can deteriorate and stop functioning. Additional pressures on infrastructure include urbanizing populations and a changing climate that exposes vulnerabilities. To manage the urban infrastructure ecosystem in a modernizing world, urban planners need to integrate a coordinated management plan for these co-located and dependent infrastructure features. To implement such a management practice, an improved method for communicating how these infrastructure features interact is needed. This study aims to define urban infrastructure as a system, identify the systematic barriers preventing implementation of a more coordinated management model, and develop a virtual reality tool to provide visualization of the spatial system dynamics of urban infrastructure. Data was collected from a stakeholder workshop that highlighted a lack of appreciation for the system dynamics of urban infrastructure. An urban ecology VR model was created to highlight the interconnectedness of infrastructure features. VR proved to be useful for communicating spatial information to urban stakeholders about the complexities of infrastructure ecology and the interactions between infrastructure features.https://doi.org/10.1016/j.cities.2019.102559Published versio