Benchmarking de implementaciones WMS-C de software libre

La propuesta WMS Cached (WMS-C) surge ante la necesidad de disponer de una solución más escalable al actual servicio web de mapas (WMS). Mediante la limitación de los parámetros de las peticiones a un conjunto discreto de valores, el servidor de mapas puede servir imágenes pregeneradas (teselas) a gran velocidad. En este documento se recogen las medidas de rendimiento realizadas sobre las implementaciones WMS-C: Tilecache, GeoWebcache y WMSCWrapper, todas ellas basadas en software libre. Los resultados de los benchmarks reflejan que, con todas las peticiones cacheadas y bajo las mismas condiciones, la caché WMSCWrapper ofrece un mejor rendimiento que las otras implementaciones. La difusión de estos resultados será de utilidad para ayudar a diversas entidades en la elección de una de estas soluciones libres en función de su objetivo de optimización

Implementación de modelos de localización-asignación espacial siguiendo el estándar OGC WPS

Una de las cuestiones que tradicionalmente se han tratado con los Sistemas de Información Geográfica (SIG) es la resolución de problemas de localización óptima de equipamientos. Sin embargo, se han encontrado deficiencias e insuficiencias en las funciones usuales de los SIG para el estudio de este tipo de asuntos. Por ese motivo, en la Universidad de Alcalá se desarrolló un software denominado Localiza (Bosque, Palm y Gómez, 2008), el cual está especializado en la localización de equipamientos sociales. Sin embargo, dicha aplicación está basada en el software Idrisi (Versión para Windows 2.0) y depende directamente de los formatos de datos de este SIG. Para solucionar este problema, se ha considerado la posibilidad de ofertar este tipo de software como servicio. La especificación Web Processing Service, del OGC brinda un marco para ofertar los modelos de localización-asignación como servicios a través de Internet. La implementación de estos modelos como servicios WPS facilitaría la interoperabilidad entre sistemas y la posibilidad de ejecutar modelos, independientemente de la plataforma y el lenguaje de programación. Esto permite obtener dicha funcionalidad tanto en entornos web como de escritorio. Además, se ha considerado la utilización de formatos de datos estandarizados como GML (Geography Markup Language), de tal forma que exista una independencia total de los formatos privativos de los SIG existentes en el mercado. Asimismo, se pretende utilizar en todo momento tecnologías y estándares abiertos

Running climate models on grids using G-Rex

Compute grids are used widely in many areas of environmental science, but there has been limited uptake of grid computing by the climate modelling community, partly because the characteristics of many climate models make them difficult to use with popular grid middleware systems. In particular, climate models usually produce large volumes of output data, and running them also involves complicated workflows implemented as shell scripts. A new grid middleware system that is well suited to climate modelling applications is presented in this paper. Grid Remote Execution (G-Rex) allows climate models to be deployed as Web services on remote computer systems and then launched and controlled as if they were running on the user's own computer. Output from the model is transferred back to the user while the run is in progress to prevent it from accumulating on the remote system and to allow the user to monitor the model. G-Rex has a REST architectural style, featuring a Java client program that can easily be incorporated into existing scientific workflow scripts. Some technical details of G-Rex are presented, with examples of its use by climate modellers.

Accessing biodiversity resources in computational environments from workflow applications

In the Biodiversity World (BDW) project we have created a flexible and extensible Web Services-based Grid environment for biodiversity researchers to solve problems in biodiversity and analyse biodiversity patterns. In this environment, heterogeneous and globally distributed biodiversity-related resources such as data sets and analytical tools are made available to be accessed and assembled by users into workflows to perform complex scientific experiments. One such experiment is bioclimatic modelling of the geographical distribution of individual species using climate variables in order to predict past and future climate-related changes in species distribution. Data sources and analytical tools required for such analysis of species distribution are widely dispersed, available on heterogeneous platforms, present data in different formats and lack interoperability. The BDW system brings all these disparate units together so that the user can combine tools with little thought as to their availability, data formats and interoperability. The current Web Servicesbased Grid environment enables execution of the BDW workflow tasks in remote nodes but with a limited scope. The next step in the evolution of the BDW architecture is to enable workflow tasks to utilise computational resources available within and outside the BDW domain. We describe the present BDW architecture and its transition to a new framework which provides a distributed computational environment for mapping and executing workflows in addition to bringing together heterogeneous resources and analytical tools.

Fast regridding of large, complex geospatial datasets

In the earth sciences, data are commonly cast on complex grids in order to model irregular domains such as coastlines, or to evenly distribute grid points over the globe. It is common for a scientist to wish to re-cast such data onto a grid that is more amenable to manipulation, visualization, or comparison with other data sources. The complexity of the grids presents a significant technical difficulty to the regridding process. In particular, the regridding of complex grids may suffer from severe performance issues, in the worst case scaling with the product of the sizes of the source and destination grids. We present a mechanism for the fast regridding of such datasets, based upon the construction of a spatial index that allows fast searching of the source grid. We discover that the most efficient spatial index under test (in terms of memory usage and query time) is a simple look-up table. A kd-tree implementation was found to be faster to build and to give similar query performance at the expense of a larger memory footprint. Using our approach, we demonstrate that regridding of complex data may proceed at speeds sufficient to permit regridding on-the-fly in an interactive visualization application, or in a Web Map Service implementation. For large datasets with complex grids the new mechanism is shown to significantly outperform algorithms used in many scientific visualization packages.

A Resource Centric Approach For Advancing Collaboration Through Hydrologic Data And Model Sharing

HydroShare is an online, collaborative system being developed for open sharing of hydrologic data and models. The goal of HydroShare is to enable scientists to easily discover and access hydrologic data and models, retrieve them to their desktop or perform analyses in a distributed computing environment that may include grid, cloud or high performance computing model instances as necessary. Scientists may also publish outcomes (data, results or models) into HydroShare, using the system as a collaboration platform for sharing data, models and analyses. HydroShare is expanding the data sharing capability of the CUAHSI Hydrologic Information System by broadening the classes of data accommodated, creating new capability to share models and model components, and taking advantage of emerging social media functionality to enhance information about and collaboration around hydrologic data and models. One of the fundamental concepts in HydroShare is that of a Resource. All content is represented using a Resource Data Model that separates system and science metadata and has elements common to all resources as well as elements specific to the types of resources HydroShare will support. These will include different data types used in the hydrology community and models and workflows that require metadata on execution functionality. The HydroShare web interface and social media functions are being developed using the Drupal content management system. A geospatial visualization and analysis component enables searching, visualizing, and analyzing geographic datasets. The integrated Rule-Oriented Data System (iRODS) is being used to manage federated data content and perform rule-based background actions on data and model resources, including parsing to generate metadata catalog information and the execution of models and workflows. This presentation will introduce the HydroShare functionality developed to date, describe key elements of the Resource Data Model and outline the roadmap for future development.

RWater – A Cyber Enabled Tool For Hydrologic Modeling And Analysis

Existing distributed hydrologic models are complex and computationally demanding for using as a rapid-forecasting policy-decision tool, or even as a class-room educational tool. In addition, platform dependence, specific input/output data structures and non-dynamic data-interaction with pluggable software components inside the existing proprietary frameworks make these models restrictive only to the specialized user groups. RWater is a web-based hydrologic analysis and modeling framework that utilizes the commonly used R software within the HUBzero cyber infrastructure of Purdue University. RWater is designed as an integrated framework for distributed hydrologic simulation, along with subsequent parameter optimization and visualization schemes. RWater provides platform independent web-based interface, flexible data integration capacity, grid-based simulations, and user-extensibility. RWater uses RStudio to simulate hydrologic processes on raster based data obtained through conventional GIS pre-processing. The program integrates Shuffled Complex Evolution (SCE) algorithm for parameter optimization. Moreover, RWater enables users to produce different descriptive statistics and visualization of the outputs at different temporal resolutions. The applicability of RWater will be demonstrated by application on two watersheds in Indiana for multiple rainfall events.

Impactos da adoção das novas tecnologias BPM (business process management) nos processos governamentais

Este relatório consolida os trabalhos de pesquisa, desenvolvidos entre abril de 2005 e abril de 2006, sobre o estado de adoção e oportunidades para uso de novas tecnologias de informação em processos de governo. A ampliação de fronteiras, para além dos limites tradicionais das organizações, traz uma nova e mais forte demanda por flexibilidade que possibilite o tratamento integrado de organismos de diferentes constituições, arquiteturas e processos operacionais, sem falar nos diferentes sistemas de informações. Isto é ainda mais importante nas organizações públicas. Por outro lado, uma das principais características negativas dos órgãos públicos é a morosidade e a burocracia nos processos administrativos e de atendimento ao cidadão. A falta de uma visão tecnológica moderna, isto é, a falta de um Plano Diretor de Tecnologia da Informação (PDTI) voltada para novas soluções, como é o caso do BPM, alinhada à falta de integração entre os sistemas e processos, faz com que muitos órgãos governamentais estejam caminhando na contramão do desenvolvimento tecnológico. Este projeto de pesquisa reveste-se, portanto, de alto interesse, pois focaliza as possibilidades e impactos da adoção das novas tecnologias orientadas a processos e web services (BPM - Business Process Management e BPMS - Business Process Management Systems) na área governamental, bastante desprovida de soluções integradas de serviços aos cidadãos e empresas. Estas novas tecnologias trazem paradigmas completamente diferentes dos até aqui adotados na implementação de sistemas de informações e automação de processos. Apesar das dificuldades inerentes ao tratamento de um tema complexo e novo, mais ainda em organismos governamentais, acreditamos ter desenvolvido um trabalho bastante aprofundado, atendendo aos objetivos estabelecidos no plano original, com os necessários acertos de rota e foco dos trabalhos. Cremos, também, que este trabalho estabelece uma referência relevante no conhecimento relacionados à melhoria de processos de governo, com base em novas tecnologias. Como sub-produtos planejados e realizados, inseridos no caderno de anexos a este relatório, estão conteúdos já desenvolvidos para a edição um ou dois livros sobre o tema, diversos artigos produzidos, além de diversos eventos realizados na EAESP, envolvendo o tema do projeto, que proporcionaram a oportunidade de excelentes trocas de experiências. Este relatório, apresentado de forma objetiva e sintética, focalizando somente os principais aspectos tratados, é complementado por um extenso conteúdo complementar, entregue em um caderno de Anexos.

Tábula: uma framework para o desenvolvimento de aplicações REST

O desenvolvimento de aplicações web nos nossos dias é uma área importante, devido à disseminação do acesso à Internet e à utilização do browser como uma aplicação cliente universal. A aplicação web típica em HTML está sendo desafiada por tecnologias que permitem interfaces ricas que comunicam com um backend através de serviços. As ferramentas existentes para criar aplicações web ainda não adoptaram esta abordagem e o suporte existente é omissa em oferecer programadores ferramentas dinâmicas e fáceis de usar. Web Services tradicionais baseados em SOAP e Representacional State Transfer (REST) são alternativas para a comunicação entre o frontend e no backend. O REST ganhou recentemente visibilidade e a sua menor dificuldade de aprendizagem parece adequada para muitas aplicações. No entanto, a falta de normas leva a implementar serviços REST de muitas formas diferentes, mesmo na mesma plataforma, não existindo um acordo comum sobre como descrevê-los. Nesta dissertação, propomos uma nova framework para o desenvolvimento rápido de aplicações baseadas em REST. Para esse efeito, especificações e serviços de administração são apresentadas a fim de resolver os problemas de configuração de uma camada de serviços baseada em REST. Além disso, é apresentada uma nova abordagem para processar os pedidos, permitindo também a aplicação dos princípios AOP. Finalmente, é apresentada a implementação de uma framework que suporte estas especificações. Neste âmbito, temos por objectivo expor as potencialidades dinâmicas desta framework, tendo em vista a maximização da produtividade do programador na criação de aplicações baseadas em REST, minimizando o reinício do servidor e suportando dinamicamente uma ampla gama de mudanças.

Wow!: objects

Nowadays computers have advanced beyond the desktop into many parts of everyday life and objects. To achieve this we have to make the computer invisible, and making a computer invisible is not a matter of size of the hardware, it’s all about how the human perceives the computer. To make this possible, the interaction with the computer has to be done in an alternative way, such that the user doesn’t notice the usual computer interfaces (mouse and keyboard) when using it. Therefore this thesis focuses on physical objects that are interactive to achieve various purposes like persuasive objects for stress relief, persuasive objects to help the process of teaching, persuasive objects for fun, persuasive objects to display internet information and persuasive objects to make people feel more in community (exchange virtual emotions), persuasive objects are going to be created and evaluated to see if they have the power to simplify and turn our lives better. The persuasive objects developed employ technology like sensors, actuators, microcontrollers, and computer/web services’ communication. This Master thesis starts by presenting a comprehensive introduction of what are persuasive objects and some general information about several areas that are related to our persuasive objects like stress relief, work experience, multimedia education and other major aspects. It continues by describing related work done in this area. Then we have a detailed view of each persuasive object and finally this thesis finishes with a general conclusion and notion of future work.