Patentes
Patentes Nacionais e Internacionais
1
METHOD FOR INFERENCE AND CORRECTION OF FILES BASED ON ONTOLOGIES
Estado da Patente Em Processo Inventores José Manuel FERREIRA MACHADO António Carlos DA SILVA ABELHA Nicolás Francisco LORI Carlos Manuel FERREIRA ALVES Ana Regina COELHO DE SOUSA Ailton MOREIRA DA VEIGA Rui Pedro MESQUITA MIRANDA José Rui RODRIGUES DA COSTA José Guilherme CRUZ MOREIRA Adriana Eliana FERNANDES PEREIRA Anabela COSTA DA SILVA André Miguel ANTUNES DOMINGUES Resumo A presente invenção descreve um método que pode ser integrado em uma arquitetura Extract-Transform-Load (ETL) em tempo real para implementar a coleta de informações sobre arquivos através do uso de outros arquivos. O resultado da arquitetura e do método proposto é permitir a ocorrência no sistema ETL de um processo de transformação de dados baseado em ontologia que implementa as regras da ontologia. O método desenvolvido permite melhorar os sistemas sensoriais ETL; a criação de uma arquitetura que suporte a persistência de dados de sensores para grandes quantidades de dados; e o uso de ontologias para criar protocolos de comunicação capazes de compartilhar dados em tempo real.
Ilustração
Financiamento
2023
PAMMS
The evolution of e-commerce has, in recent times, made a significant advance largely due to the forced digital transformation and to Sars-cov-2. Thus, augmented reality (AR) technology is increasingly being adopted by companies either to increase brand value or to improve the shopping experience for their consumers. This work aims to present a comparative study between some shopping applications using AR, augmented reality shopping applications (ARSAs), which are carried out in stores or online. The applications were studied in articles in Open Access format and the focus was to understand what their conclusions were as well as the problems and trends of future research toward this type of technologies. Keywords: Augmented reality, E-commerce, Mobile apps, Shopping apps
2022
Data Platforms for Real-time Insights in Healthcare: Systematic Review
Abstract: The ever-growing usage and popularity of Internet of Things devices, coupled with Big Data technologies and machine learning algorithms, have allowed for data engineers to explore new opportunities in healthcare and continuous care. Furthermore, there is a need to reduce the gap on time from when information is created to when actions and insights can be offered. However, a challenge in implementing a large-scale data processing architecture is deciding which tools are appropriate, and how to apply them in the best way possible. For example, streaming systems are now mature enough that hospitals worldwide can use their extremely large datasets, along with data producers, to predict and influence future events. Thus, the main objective of this systematic review is to identify the state-of-the-art in data platforms on healthcare that allow the creation of metrics and actions in real-time. The PRISMA guideline for reporting systematic reviews was implemented to deliver a transparent and consistent report, validating the technological advances in a critical sector. Multiple pertinent articles and papers were retrieved from the SCOPUS abstract and citation database on May 13, 2022, using several relevant keywords to identify potentially relevant documents published from January 2020 onward. These documents must have already been published in English and been already published, and accessible through the B-ON consortium that allows Portuguese students to legally download from most publishers. Over seven studies have been selected for deeper discussion based on their relevance and impact for this review, showcasing their main objectives, data sources, and tools used, as well as their approaches for interoperability and support of machine learning algorithms for decision support. In closing, the collected articles have shown that while Big Data is currently in use at health institutions of all sizes, the ability of processing large amounts of data from sensors and events, and notifying stakeholders as quickly as possible is still in its infancy. Keywords: Data Engineering; Business Intelligence, Big Data, Machine Learning, Streaming Systems, Data Lake, Data Mining, Event-Driven, Microservices.
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