Options and recommandations related to further development of an Espon Cartographic Language

In this 5th part of Espon Cartographic Language Final Report, our aim is to identify good practices, as well in the development of interactive cartographic environments such as atlases, as in innovative cartographic constructions. Our proposals target several levels:- The level of applications themselves: which functionalities have to be use, for what applications and what objectives?-The level of cartographic representations, meaning the possibilities to introduce elements of animation and interactivity in maps, depending on data and objectives: what innovations for which representation?To achieve such aims, we use two types of resources:- a collection of interactive atlases, considered as the most representative of the diversity in european statistical atlases, which we have analyzed and compared.- the collection of maps presented in Task 4, that we propose to enrich with functions of interaction and animation.The first part of Task 5 deals with recommendations, coming from a comparative analysis of european statistical atlases. These recommendations depend on the type of environment to be made (environment of visualization, analysis or exploration), and on the desired interactivity level.The second part deals with recommendations to create interactive and animated maps. They are illustrated by concrete proposals, in the form of summary datasheet.The final part deals with a comparison of computer tools that can be used to make innovative cartographic applications

Ambientes virtuais baseados na WEB : alguns aspectos fundamentais /

Orientador: André Luiz BattaiolaInclui apęndiceDissertaçăo (mestrado) - Universidade Federal do Paraná, Setor de Cięncias Exatas, Programa de Pós-Graduaçăo em Informática. Defesa: Curitiba, 2007Inclui bibliografi

SVG 3D Graphical Presentation for Web-based Applications

Due to the rapid developments in the field of computer graphics and computer hardware, web-based applications are becoming more and more powerful, and the performance distance between web-based applications and desktop applications is increasingly closer. The Internet and the WWW have been widely used for delivering, processing, and publishing 3D data. There is increasingly demand for more and easier access to 3D content on the web. The better the browser experience, the more potential revenue that web-based content can generate for providers and others. The main focus of this thesis is on the design, develop and implementation of a new 3D generic modelling method based on Scalable Vector Graphics (SVG) for web-based applications. While the model is initialized using classical 3D graphics, the scene model is extended using SVG. A new algorithm to present 3D graphics with SVG is proposed. This includes the definition of a 3D scene in the framework, integration of 3D objects, cameras, transformations, light models and textures in a 3D scene, and the rendering of 3D objects on the web page, allowing the end-user to interactively manipulate objects on the web page. A new 3D graphics library for 3D geometric transformation and projection in the SVG GL is design and develop. A set of primitives in the SVG GL, including triangle, sphere, cylinder, cone, etc. are designed and developed. A set of complex 3D models in the SVG GL, including extrusion, revolution, Bezier surface, and point clouds are designed and developed. The new Gouraud shading algorithm and new Phong Shading algorithm in the SVG GL are proposed, designed and developed. The algorithms can be used to generate smooth shading and create highlight for 3D models. The new texture mapping algorithms for the SVG GL oriented toward web-based 3D modelling applications are proposed, designed and developed. Texture mapping algorithms for different 3D objects such as triangle, plane, sphere, cylinder, cone, etc. will also be proposed, designed and developed. This constitutes a unique and significant contribution to the disciplines of web-based 3D modelling, as well as to the process of 3D model popularization

RADGIS - an improved architecture for runtime-extensible, distributed GIS applications

A number of GIS architectures and technologies have emerged recently to facilitate the visualisation and processing of geospatial data over the Web. The work presented in this dissertation builds on these efforts and undertakes to overcome some of the major problems with traditional GIS client architectures, including application bloat, lack of customisability, and lack of interoperability between GIS products. In this dissertation we describe how a new client-side GIS architecture was developed and implemented as a proof-of-concept application called RADGIS, which is based on open standards and emerging distributed component-based software paradigms. RADGIS reflects the current trend in development focus from Web browser-based applications to customised clients, based on open standards, that make use of distributed Web services. While much attention has been paid to exposing data on the Web, there is growing momentum towards providing “value-added” services. A good example of this is the tremendous industry interest in the provision of location-based services, which has been discussed as a special use-case of our RADGIS architecture. Thus, in the near future client applications will not simply be used to access data transparently, but will also become facilitators for the location-transparent invocation of local and remote services. This flexible architecture will ensure that data can be stored and processed independently of the location of the client that wishes to view or interact with it. Our RADGIS application enables content developers and end-users to create and/or customise GIS applications dynamically at runtime through the incorporation of GIS services. This ensures that the client application has the flexibility to withstand changing levels of expertise or user requirements. These GIS services are implemented as components that execute locally on the client machine, or as remote CORBA Objects or EJBs. Assembly and deployment of these components is achieved using a specialised XML descriptor. This XML descriptor is written using a markup language that we developed specifically for this purpose, called DGCML, which contains deployment information, as well as a GUI specification and links to an XML-based help system that can be merged with the RADGIS client application’s existing help system. Thus, no additional requirements are imposed on object developers by the RADGIS architecture, i.e. there is no need to rewrite existing objects since DGCML acts as a runtime-customisable wrapper, allowing existing objects to be utilised by RADGIS. While the focus of this thesis has been on overcoming the above-mentioned problems with traditional GIS applications, the work described here can also be applied in a much broader context, especially in the development of highly customisable client applications that are able to integrate Web services at runtime

3D navigation system for 3D GIS

The needs for three-dimensional (3D) visualization and navigation within 3D-GIS environment are growing and expanding rapidly in a variety of fields. In a steady shift from traditional two-dimensional (2D) GIS toward 3D-GIS, a great amount of accurate 3D data sets (e.g. city models) have become necessary to be produced in a short period of time and provided widely on the market. This requires a number of specific issues to be investigated, e.g. 3D routing accuracy, appropriate means to visualize 3D spatial analysis, tools to effortlessly explore and navigate through large models in real time, with the correct texture and geometry. There had been a lot of study on 3D landscapes, urban and city models. The rapid advancement in science and technology had opened wide options for a change and development of current methods and concepts. Virtual Reality (VR) is one of those developments, which gives the sense of feel in virtual environment. It enables users to visualize, make query and exploring 3D data. Such system can, not only help laymen, who often have trouble in understanding or interpreting complex data, but they also can help experts in decision making. The objective of this paper is to discuss some initial requirements of the proposed solution towards 3D-GIS. Eventually, this paper will serve as a starting point for a more challenging research idea. The focus of this research is to investigate and implementing 3D navigation techniques and solutions for 3D-GIS. Investigation on the support of navigation in real world environment will be carried out. This will include a research on the benefits of using 3D network model (non-planar graph) compared to 2D, how to use visual landmarks in route descriptions and using 3D geometry to get more accurate routing (in buildings, or in narrow street, etc). And as for implementation, a GUI provides the users with means (e.g. fill-out forms) to specify SQL queries interact and visualize 3D outcomes in virtual reality environment. This has opened up the ability to distribute and navigate accurately in 3D virtual worlds. The initial study on Klang Valley will go through data conversion processes from different formats like Laser, VRML, CAD and Shape 3D in a first person view environment using a developed system using VRML, JAVA and .Net compiler. The dataset structure will be in the form of various 2D, 2.5D and 3D array of height fields

Actas do 12º Encontro Português de Computação Gráfica

Actas do 12º Encontro Portugês de Computação Gráfica, Porto, 8-10 de Outubro de 2003O Encontro Português de Computação Gráfica teve lugar nesse ano 2003, naquela que foi a sua 12ª edição, no ISEP – Instituto Superior de Engenharia do Porto, entre os 8 a 10 de Outubro. O 12º Encontro Português de Computação Gráfica (12EPCG) veio no seguimento de encontros anteriores realizados anualmente e reuniu investigadores, docentes e profissionais nacionais e estrangeiros, que realizam trabalho ou utilizam a Computação Gráfica, Realidade Virtual e Multimédia, assim como todas as suas áreas afins, no sentido de permitir a divulgação de projectos realizados ou em curso e fomentar a troca de experiências e a discussão de questões relacionadas com a Computação Gráfica em Portugal, entre as comunidades académica,industrial e a de utilizadores finais. Este é o livro de actas do 12EPCG.Fundação Ilídio PinhoFC

Applications of new information technologies for the preparation and efficient transmission of geographic information - the example of map-based systems on the Internet

Für die Bearbeitung sowohl praktischer als auch wissenschaftlicher Fragestellungen gewinnt der Einsatz kartengestützter Online-Systeme heute zunehmend an Bedeutung und führt zu einer außerordentlich großen Aufwertung der klassischen Funktion der Kartendarstellung in raumbezogenen Arbeits- und Forschungsprozessen. Dies bezieht sich nicht nur auf das Fach Geographie, sondern auch auf andere geowissenschaftliche Disziplinen. Alle Raumwissenschaften greifen auf räumliche Modelle in Form von Karten oder kartenverwandten Darstellungen zurück, um Zugang zur räumlichen Realität zu erhalten und theoriegeleitet arbeiten zu können.Wie bei Fernerkundungstechniken oder statistischen Analyseverfahren, die in zahlreichen geographischen Forschungsprozessen oder praktischen Auswertungstätigkeiten angewandt werden, ist es auch im Bereich der Online-Informationsvermittlung heute erforderlich, über hinreichende Kenntnisse der Wirkungsweise der eingesetzten Techniken (Verfahren) zu verfügen. Gerade im Hinblick auf die optische Perfektion, die mittlerweile kennzeichnend für die digitalen Produkte raumbezogener Visualisierungstechniken ist, erscheint es notwendig, technische Zusammenhänge und Grundlagen aufzuzeigen.Die Analyse der Konstruktions- und Distributionsweisen und die Herausstellung der informationstheoretischen Vorzüge kartengestützter Online-Systeme wurde dabei um eine empirische Überprüfung ergänzt, um eine umfassendere Bewertung des tatsächlichen Vermittlungserfolges von geographischen Informationen erreichen zu können. Mit diesem Ansatz wurde der Versuch unternommen, die These von der größeren Effizienz von Webkarten zu überprüfen und aufzuzeigen, ob und ggfs. in welchem Umfang sich die mit einer Web-Karte verfolgte Intention, einen Raumausschnitt thematisch oder topographisch wiederzugeben, im Vergleich zu konventionellen Printkarten unterschiedlich umsetzen lässt. Die Datenerhebung erfolgte über eine Befragung von zwei unterschiedlichen Versuchsgruppen, deren Wahrnehmungsleistungen als Indikator für die Wirkung der unterschiedlich codierten Rauminformationen gewertet wurden.Insgesamt belegen die Ergebnisse des kartographischen Experiments die Annahme, dass der Vermittlungserfolg von kartengestützten Rauminformationen, die über das Internet übertragen werden, größer ist als bei konventionellen Printkarten. Der Anteil an korrekten Antworten, der bei der vergleichenden Befragung erzielt wurde, ist bei den mit der Web-Technologie visualisierten Karten durchschnittlich um rund 15% größer als bei den normalen Printkarten. Insbesondere bei komplexeren Rauminformationen, bei denen es um vergleichende Betrachtungen oder das Erfassen von kausalen Zusammenhängen geht, besitzen interaktive und multimedial unterstützte Raumdarstellungen, wie sie das World Wide Web ermöglicht, eindeutig Vorteile. Die Möglichkeiten zum räumlich, zeitlich und inhaltlich nahezu unbegrenzten Informationsabruf und zur Variation der Datenwiedergabe von Webkarten kommen dem jeweils unterschiedlich ausgeprägten Wahrnehmungsvermögen der Kartennutzer zugute und verbessern offensichtlich die individuelle Informationsaufnahme

Towards Web-based representation and processing of health information

<p>Abstract</p> <p>Background</p> <p>There is great concern within health surveillance, on how to grapple with environmental degradation, rapid urbanization, population mobility and growth. The Internet has emerged as an efficient way to share health information, enabling users to access and understand data at their fingertips. Increasingly complex problems in the health field require increasingly sophisticated computer software, distributed computing power, and standardized data sharing. To address this need, Web-based mapping is now emerging as an important tool to enable health practitioners, policy makers, and the public to understand spatial health risks, population health trends and vulnerabilities. Today several web-based health applications generate dynamic maps; however, for people to fully interpret the maps they need data source description and the method used in the data analysis or statistical modeling. For the representation of health information through Web-mapping applications, there still lacks a standard format to accommodate all fixed (such as location) and variable (such as age, gender, health outcome, etc) indicators in the representation of health information. Furthermore, net-centric computing has not been adequately applied to support flexible health data processing and mapping online.</p> <p>Results</p> <p>The authors of this study designed a HEalth Representation XML (HERXML) schema that consists of the semantic (e.g., health activity description, the data sources description, the statistical methodology used for analysis), geometric, and cartographical representations of health data. A case study has been carried on the development of web application and services within the Canadian Geospatial Data Infrastructure (CGDI) framework for community health programs of the New Brunswick Lung Association. This study facilitated the online processing, mapping and sharing of health information, with the use of HERXML and Open Geospatial Consortium (OGC) services. It brought a new solution in better health data representation and initial exploration of the Web-based processing of health information.</p> <p>Conclusion</p> <p>The designed HERXML has been proven to be an appropriate solution in supporting the Web representation of health information. It can be used by health practitioners, policy makers, and the public in disease etiology, health planning, health resource management, health promotion and health education. The utilization of Web-based processing services in this study provides a flexible way for users to select and use certain processing functions for health data processing and mapping via the Web. This research provides easy access to geospatial and health data in understanding the trends of diseases, and promotes the growth and enrichment of the CGDI in the public health sector.</p