Eva Portillo Pérez :: Projects

Smart Tip for Gait Functional Diagnosis in Multiple Sclerosis Patients (DPI2017-82694-R)

  • Lead researcher: Asier Zubizarreta Picó - (01/01/2018 - 31/07/2021)
  • Funding body: Spanish Ministry of Science and Innovation

This project focuses on the development of an intelligent tip for the monitoring and diagnosis of Multiple Sclerosis (MS) patients. The data adquired by this device is intended to be used for diagnosis purposes, offering objective data that can be used to optimize and adapt the rehabilitation therapy to the particular state of each patient, which will lead to the improvement of his/her life quality. MS is one of the neurological diseases with more impact in society (40000 patients in Spain), due to: 1) the average...

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iLAND- mIddLewAre for deterministic dynamically reconfigurable NetworkeD embedded systems (ILAND_ART-010000-2009-7)

  • Lead researcher: Marga Marcos - (01/03/2009 - 28/08/2012)
  • Funding body: ARTEMIS and Ministry of Science and Innovation

The main objective of this project is to offer support to the dynamic behaviour of future embedded systems, known as cyber-physical systems, which are characterized by their heretogeneous devices with different resource restrictions and both functional and non-functional requirements. For this, we need to have mechanisms that allow them to adapt to their environment, such as connection/disconnection of devices, reconfiguration responding to alarms, soft degradation of functioning, etc. In order to meet these requirements...

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Analysis of power in the drilling process to move towards new control strategies. Análisis de la Potencia en el Proceso de Taladrado para el Planteamiento de Nuevas Estrategias de Control (PT10048)

  • Lead researcher: Eva Portillo Pérez - (18/10/2010 - 18/12/2010)
  • Funding body: IDEKO, S. COOP.

The aim of this work is to analyse drilling process behaviour to evaluate the possibilities of designing a control system that allows us to increase productivity and to efficiently manage tools with a power supervision loop. In order to carry out this analysis we first propose a testing methodology to extract maximum knowledge about the process. This trial methodology involves trials in both a stable regime and degraded regimes caused by the wear or breakage of the tool. Second, it is necessary to define and...

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