Autor:
Romero, Oscar

Cargando...
Foto de perfil

E-mails conocidos

oromero@essi.upc.edu

Fecha de nacimiento

Proyectos de investigación

Unidades organizativas

Puesto de trabajo

Apellidos

Romero

Nombre de pila

Oscar

Nombre

Nombres alternativos

Afiliaciones conocidas

Universitat Politècnica de Catalunya, Spain
Universitat Politécnica de Catalunya

Páginas web conocidas

Página completa del ítem
Notificar un error en este autor

Resultados de la búsqueda

Mostrando 1 - 1 de 1
  • Artículo
    Incremental Consolidation of Data-Intensive Multi-Flows
    Jovanovic, Petar; Romero, Oscar; Simitsis, Alkis; Abello, Alberto. Actas de las XXII Jornadas de Ingeniería del Software y Bases de Datos (JISBD 2017), 2017-07-19.
    En Transactions on Knowledge and Data Engineering, 28(5). IEEE Press, May 2016. Páginas 1203-1216. ISSN: 1041-4347. DOI: 10.1109/TKDE.2016.2515609 Ã?ndice de impacto: JCR-Science Edition 2015, 2.476 Quartil i área: Q1, COMPUTER SCIENCE, INFORMATION SYSTEMS, 17/143 Business intelligence (BI) systems depend on efficient integration of disparate and often heterogeneous data. The integration of data is governed by data-intensive flows and is driven by a set of information requirements. Designing such flows is in general a complex process, which due to the complexity of business environments is hard to be done manually. In this paper, we deal with the challenge of efficient design and maintenance of data-intensive flows and propose an incremental approach, namely CoAl , for semi-automatically consolidating data-intensive flows satisfying a given set of information requirements. CoAl works at the logical level and consolidates data flows from either high-level information requirements or platform-specific programs. As CoAl integrates a new data flow, it opts for maximal reuse of existing flows and applies a customizable cost model tuned for minimizing the overall cost of a unified solution. We demonstrate the efficiency and effectiveness of our approach through an experimental evaluation using our implemented prototype.