6 resultados para Networking and Communications
em Instituto Politécnico do Porto, Portugal
Resumo:
Real-time systems demand guaranteed and predictable run-time behaviour in order to ensure that no task has missed its deadline. Over the years we are witnessing an ever increasing demand for functionality enhancements in the embedded real-time systems. Along with the functionalities, the design itself grows more complex. Posed constraints, such as energy consumption, time, and space bounds, also require attention and proper handling. Additionally, efficient scheduling algorithms, as proven through analyses and simulations, often impose requirements that have significant run-time cost, specially in the context of multi-core systems. In order to further investigate the behaviour of such systems to quantify and compare these overheads involved, we have developed the SPARTS, a simulator of a generic embedded real- time device. The tasks in the simulator are described by externally visible parameters (e.g. minimum inter-arrival, sporadicity, WCET, BCET, etc.), rather than the code of the tasks. While our current implementation is primarily focused on our immediate needs in the area of power-aware scheduling, it is designed to be extensible to accommodate different task properties, scheduling algorithms and/or hardware models for the application in wide variety of simulations. The source code of the SPARTS is available for download at [1].
Resumo:
Knowing exactly where a mobile entity is and monitoring its trajectory in real-time has recently attracted a lot of interests from both academia and industrial communities, due to the large number of applications it enables, nevertheless, it is nowadays one of the most challenging problems from scientific and technological standpoints. In this work we propose a tracking system based on the fusion of position estimations provided by different sources, that are combined together to get a final estimation that aims at providing improved accuracy with respect to those generated by each system individually. In particular, exploiting the availability of a Wireless Sensor Network as an infrastructure, a mobile entity equipped with an inertial system first gets the position estimation using both a Kalman Filter and a fully distributed positioning algorithm (the Enhanced Steepest Descent, we recently proposed), then combines the results using the Simple Convex Combination algorithm. Simulation results clearly show good performance in terms of the final accuracy achieved. Finally, the proposed technique is validated against real data taken from an inertial sensor provided by THALES ITALIA.
Resumo:
Dissertação de Mestrado Apresentado ao Instituto de Contabilidade e Administração do Porto para a obtenção do grau de Mestre em Marketing Digital, sob orientação de Professor Doutor Freitas Santos
Resumo:
The current industry trend is towards using Commercially available Off-The-Shelf (COTS) based multicores for developing real time embedded systems, as opposed to the usage of custom-made hardware. In typical implementation of such COTS-based multicores, multiple cores access the main memory via a shared bus. This often leads to contention on this shared channel, which results in an increase of the response time of the tasks. Analyzing this increased response time, considering the contention on the shared bus, is challenging on COTS-based systems mainly because bus arbitration protocols are often undocumented and the exact instants at which the shared bus is accessed by tasks are not explicitly controlled by the operating system scheduler; they are instead a result of cache misses. This paper makes three contributions towards analyzing tasks scheduled on COTS-based multicores. Firstly, we describe a method to model the memory access patterns of a task. Secondly, we apply this model to analyze the worst case response time for a set of tasks. Although the required parameters to obtain the request profile can be obtained by static analysis, we provide an alternative method to experimentally obtain them by using performance monitoring counters (PMCs). We also compare our work against an existing approach and show that our approach outperforms it by providing tighter upper-bound on the number of bus requests generated by a task.
Resumo:
Open innovation is a hot topic in innovation management. Its basic premise is open up the innovation process. The innovation process, in general sense, may be seen as the process of designing, developing and commercializing a novel product or service to improve the value added of a company. The development of Web 2.0 tools facilitates this kind of contributions, opening space to the emergence of crowdsourcing innovation initiatives. Crowdsourcing is a form of outsourcing not directed to other companies but to the crowd by means of an open call mostly through an Internet platform. Innovation intermediaries, in general sense, are organizations that work to enable innovation, that just act as brokers or agents between two or more parties. Usually, they are also engaged in other activities like inter-organizational networking and technology development and related activities. A crowdsourcing innovation intermediary is an organization that mediates the communication and relationship between the seekers – companies that aspire to solve some problem or to take advantage of any business opportunity – with a crowd that is prone to give ideas based on their knowledge, experience and wisdom. This paper identifies and analyses the functions to be performed by an intermediary of crowdsourcing innovation through grounded theory analyses from literature. The resulting model is presented and explained. The resulting model summarizes eight main functions that can be performed by a crowdsourcing process, namely, diagnoses, mediation, linking knowledge, community, evaluation, project management, intellectual property governance and marketing and support. These functions are associated with a learning cycle process which covers all the crowdsourcing activities that can be realized by the broker.
Resumo:
O presente relatório foi desenvolvido no âmbito de Prática Pedagógica Supervisionada no 1ºCiclo do Ensino Básico, Unidade Curricular do Mestrado em Educação Pré-Escolar e Ensino do 1ºCiclo do Ensino Básico, na Escola Superior de Educação do Instituto Politécnico do Porto. Assim sendo, diz respeito à intervenção da mestranda numa turma de 4ºano do 1ºCiclo do Ensino Básico, numa instituição de ensino público, na zona metropolitana do Porto. A Unidade Curricular em questão, de cariz teórico-prático, permitiu mobilizar pressupostos teóricos fundamentais para o desenvolvimento da prática pedagógica, dando a conhecer as competências desejáveis do profissional de ensino. A metodologia utilizada ao longo do percurso da mestranda assentou na vertente da investigação e ação, pelo que envolve um conjunto de etapas que permitem a melhoria das práticas e, consequentemente, do desenvolvimento profissional e da aprendizagem dos alunos. O relatório espelha todo o processo formativo, destacando conceções teóricas e legais e o contexto da prática, evidenciando, de forma crítica e reflexiva, momentos do estágio que marcaram o desenvolvimento profissional e pessoal da futura professora. Destaca-se a valorização do aluno como indivíduo único, repleto de características que o caracterizam, bem como do processo de ensino-aprendizagem, pelo que se utilizaram metodologias socioconstrutivistas e recursos diversificados com vista à aprendizagem de sucesso. Deste modo, realça-se que este mestrado contribuiu para o desenvolvimento de competências essenciais no que concerne à profissão docente, sendo que a vivência de situações concretas permitiram a construção fundamentada do pensamento crítico e de um conjunto de saberes científicos, pedagógicos e didáticos da mestranda.