5,470 research outputs found
An Analytics Platform for Integrating and Computing Spatio-Temporal Metrics
In large-scale context-aware applications, a central design concern is capturing, managing
and acting upon location and context data. The ability to understand the collected data and define
meaningful contextual events, based on one or more incoming (contextual) data streams, both for
a single and multiple users, is hereby critical for applications to exhibit location- and context-aware
behaviour. In this article, we describe a context-aware, data-intensive metrics platform —focusing
primarily on its geospatial support—that allows exactly this: to define and execute metrics, which
capture meaningful spatio-temporal and contextual events relevant for the application realm.
The platform (1) supports metrics definition and execution; (2) provides facilities for real-time,
in-application actions upon metrics execution results; (3) allows post-hoc analysis and visualisation
of collected data and results. It hereby offers contextual and geospatial data management and
analytics as a service, and allow context-aware application developers to focus on their core
application logic. We explain the core platform and its ecosystem of supporting applications and
tools, elaborate the most important conceptual features, and discuss implementation realised through
a distributed, micro-service based cloud architecture. Finally, we highlight possible application fields,
and present a real-world case study in the realm of psychological health
A Data-driven Methodology Towards Mobility- and Traffic-related Big Spatiotemporal Data Frameworks
Human population is increasing at unprecedented rates, particularly in urban areas. This increase, along with the rise of a more economically empowered middle class, brings new and complex challenges to the mobility of people within urban areas. To tackle such challenges, transportation and mobility authorities and operators are trying to adopt innovative Big Data-driven Mobility- and Traffic-related solutions. Such solutions will help decision-making processes that aim to ease the load on an already overloaded transport infrastructure. The information collected from day-to-day mobility and traffic can help to mitigate some of such mobility challenges in urban areas.
Road infrastructure and traffic management operators (RITMOs) face several limitations to effectively extract value from the exponentially growing volumes of mobility- and traffic-related Big Spatiotemporal Data (MobiTrafficBD) that are being acquired and gathered. Research about the topics of Big Data, Spatiotemporal Data and specially MobiTrafficBD is scattered, and existing literature does not offer a concrete, common methodological approach to setup, configure, deploy and use a complete Big Data-based framework to manage the lifecycle of mobility-related spatiotemporal data, mainly focused on geo-referenced time series (GRTS) and spatiotemporal events (ST Events), extract value from it and support decision-making
processes of RITMOs.
This doctoral thesis proposes a data-driven, prescriptive methodological approach towards the design, development and deployment of MobiTrafficBD Frameworks focused on GRTS and ST Events. Besides a thorough literature review on Spatiotemporal Data, Big Data and the merging of these two fields through MobiTraffiBD, the methodological approach comprises a set of general characteristics, technical requirements, logical components, data flows and technological infrastructure models, as well as guidelines and best practices that aim to guide researchers, practitioners and stakeholders, such as RITMOs, throughout the design, development and deployment phases of any MobiTrafficBD Framework.
This work is intended to be a supporting methodological guide, based on widely used
Reference Architectures and guidelines for Big Data, but enriched with inherent characteristics
and concerns brought about by Big Spatiotemporal Data, such as in the case of GRTS and ST
Events. The proposed methodology was evaluated and demonstrated in various real-world
use cases that deployed MobiTrafficBD-based Data Management, Processing, Analytics and
Visualisation methods, tools and technologies, under the umbrella of several research projects
funded by the European Commission and the Portuguese Government.A população humana cresce a um ritmo sem precedentes, particularmente nas áreas urbanas.
Este aumento, aliado ao robustecimento de uma classe média com maior poder económico,
introduzem novos e complexos desafios na mobilidade de pessoas em áreas urbanas. Para
abordar estes desafios, autoridades e operadores de transportes e mobilidade estão a adotar
soluções inovadoras no domínio dos sistemas de Dados em Larga Escala nos domínios da
Mobilidade e Tráfego. Estas soluções irão apoiar os processos de decisão com o intuito de libertar uma infraestrutura de estradas e transportes já sobrecarregada. A informação colecionada da mobilidade diária e da utilização da infraestrutura de estradas pode ajudar na mitigação de alguns dos desafios da mobilidade urbana.
Os operadores de gestão de trânsito e de infraestruturas de estradas (em inglês, road infrastructure and traffic management operators — RITMOs) estão limitados no que toca a extrair valor de um sempre crescente volume de Dados Espaciotemporais em Larga Escala no domínio da Mobilidade e Tráfego (em inglês, Mobility- and Traffic-related Big Spatiotemporal Data —MobiTrafficBD) que estão a ser colecionados e recolhidos. Os trabalhos de investigação sobre os tópicos de Big Data, Dados Espaciotemporais e, especialmente, de MobiTrafficBD, estão dispersos, e a literatura existente não oferece uma metodologia comum e concreta para preparar, configurar, implementar e usar uma plataforma (framework) baseada em tecnologias Big Data para gerir o ciclo de vida de dados espaciotemporais em larga escala, com ênfase nas série temporais georreferenciadas (em inglês, geo-referenced time series — GRTS) e eventos espacio-
temporais (em inglês, spatiotemporal events — ST Events), extrair valor destes dados e apoiar os
RITMOs nos seus processos de decisão.
Esta dissertação doutoral propõe uma metodologia prescritiva orientada a dados, para o design, desenvolvimento e implementação de plataformas de MobiTrafficBD, focadas em GRTS e ST Events. Além de uma revisão de literatura completa nas áreas de Dados Espaciotemporais, Big Data e na junção destas áreas através do conceito de MobiTrafficBD, a metodologia proposta contem um conjunto de características gerais, requisitos técnicos, componentes lógicos, fluxos de dados e modelos de infraestrutura tecnológica, bem como diretrizes e boas
práticas para investigadores, profissionais e outras partes interessadas, como RITMOs, com o
objetivo de guiá-los pelas fases de design, desenvolvimento e implementação de qualquer pla-
taforma MobiTrafficBD.
Este trabalho deve ser visto como um guia metodológico de suporte, baseado em Arqui-
teturas de Referência e diretrizes amplamente utilizadas, mas enriquecido com as característi-
cas e assuntos implícitos relacionados com Dados Espaciotemporais em Larga Escala, como
no caso de GRTS e ST Events. A metodologia proposta foi avaliada e demonstrada em vários
cenários reais no âmbito de projetos de investigação financiados pela Comissão Europeia e
pelo Governo português, nos quais foram implementados métodos, ferramentas e tecnologias
nas áreas de Gestão de Dados, Processamento de Dados e Ciência e Visualização de Dados em
plataformas MobiTrafficB
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Big data analytics for time critical maritime and aerial mobility forecasting
The correlated exploitation of heterogeneous data sources offering very large archival and streaming data is important to increase the accuracy of computations when analysing and predicting future states of moving entities. Aiming to significantly advance the capacities of systems to improve safety and effectiveness of critical operations involving a large number of moving entities in large geographical areas, this paper describes progress achieved towards time critical big data analytics solutions to user-defined challenges in the air-traffic management and maritime domains. Besides, this paper presents further research challenges concerning data integration and management, predictive analytics for trajectory and events forecasting, and visual analytics
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Maritime data integration and analysis: Recent progress and research challenges
The correlated exploitation of heterogeneous data sources offering very large historical as well as streaming data is important to increasing the accuracy of computations when analysing and predicting future states of moving entities. This is particularly critical in the maritime domain, where online tracking, early recognition of events, and real-time forecast of anticipated trajectories of vessels are crucial to safety and operations at sea. The objective of this paper is to review current research challenges and trends tied to the integration, management, analysis, and visualization of objects moving at sea as well as a few suggestions for a successful development of maritime forecasting and decision-support systems
Internet of things
Manual of Digital Earth / Editors: Huadong Guo, Michael F. Goodchild, Alessandro Annoni .- Springer, 2020 .- ISBN: 978-981-32-9915-3Digital Earth was born with the aim of replicating the real world within the digital world. Many efforts have been made to observe and sense the Earth, both from space (remote sensing) and by using in situ sensors. Focusing on the latter, advances in Digital Earth have established vital bridges to exploit these sensors and their networks by taking location as a key element. The current era of connectivity envisions that everything is connected to everything. The concept of the Internet of Things(IoT)emergedasaholisticproposaltoenableanecosystemofvaried,heterogeneous networked objects and devices to speak to and interact with each other. To make the IoT ecosystem a reality, it is necessary to understand the electronic components, communication protocols, real-time analysis techniques, and the location of the objects and devices. The IoT ecosystem and the Digital Earth (DE) jointly form interrelated infrastructures for addressing today’s pressing issues and complex challenges. In this chapter, we explore the synergies and frictions in establishing an efficient and permanent collaboration between the two infrastructures, in order to adequately address multidisciplinary and increasingly complex real-world problems. Although there are still some pending issues, the identified synergies generate optimism for a true collaboration between the Internet of Things and the Digital Earth
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