Empowering Growth with Real Data (CYBELE)
- 2019 – 2023, Funded by: H2020.
- CYBELE aims to generate innovation and create value in the domains of agri-food by implementing Precision Agriculture (PA) and Precision Livestock Farming (PLF) methods, and to empower capacity building within the industrial and research communities associated with these domains.
- My responsibilities: My work is about designing the workflow template metamodel which will be responsible for the translation of the templates produced by the Experiment Composition Environment into meaningful processes interpreted by the Parallel Execution Manager.
- Partners: Waterford Institute of Technology; Barcelona Supercomputing Center; Bull SA; CINECA Consorzio Interuniversitario; University of Stuttgart – High Performance Computing Centre; Instytut Chemii Bioorganicznej PAN; Ryax Technologies; EXODUS SA; LEANXCALE SL; Institute of Communication and Computer Systems; Centre for Research and Technology-Hellas; Tampere University of Technology; University of Piraeus Research Center; UBITECH; Suite5 Data Intelligence Solutions Limited; INTRASOFT International SA; ENGINEERING – INGEGNERIA INFORMATICA SPA; Wageningen University; Wageningen Research; BioSense Institute; Donau Soja; AGRO-KNOW BVBA; GMV Aerospace and Defence S.A.U.; Cooperatives Agro-alimentàries de la Comunitat Valenciana; University of Strathclyde; EIGEN VERMOGEN VAN HET INSTITUUT VOOR LANDBOUW EN VISSERIJONDERZOEK; Vion Food Netherlands BV; INTEGRATED INFORMATION SYSTEMS SA; University of Copenhagen; Evenflow SPRL; Open Geospatial Consortium Europe.
Mathematical Optimizations for Human Centric Lighting (OptiLight)
- 2017 – 2020, Funded by: STW-HTSM.
- OptiLight aims to “make lighting control systems more centered towards the human user. This requires not only better insights into how humans experience light but also demands quantified models and optimization algorithms that are executed by automated lighting control systems”.
- My responsibilities: My work is about landing the lighting management solutions on a real system with a suitable architecture and software. The following aspects are essential in the implementation:
- Distributed and scalable architecture of the system.
- Easy definition of system behavior.
- Protection of data and services.
- Partners: Eindhoven University of Technology, Signify (Philips Lighting)
Open Architectures for Intelligent Solid State Lighting Systems (OpenAIS)
- 2016 – 2017, Funded by: H2020.
- OpenAIS is defined as “an open system architecture for the inclusion of lighting for professional applications into IoT, with a focus on office lighting. This enables a transition from the currently existing closed and command-oriented lighting control systems to an open and service-oriented system architecture”.
- My responsibilities:
- Design routing protocols for indoor lighting systems.
- Design solutions for communication flow management in wireless mesh networks.
- Partners: Eindhoven University of Technology, Signify (Philips Lighting), NXP, ARM, Tridonic, TNO ESI, Zumtobel, Dynniq, Johnson Controls.
Internet of Things using RF-based Wireless Power Transfer (IoT-WPT)
- 2013 – 2016, Funded by: DIRECT.
- IoT-WPT aims to use RF-based wireless power transfer for IoT systems. In this project, the key challenge is that the available power for IoT systems is from RF-based energy harvesting.
- My responsibilities:
- Implement and optimize distributed wireless charging system for mobile devices.
- Decrease communication power consumption of wearable devices by merging backscatter and active radio.
- Beacon-based indoor localization for batteryless mobile devices using the ultra-low power of RF wireless charging.
Sensing Heterogeneous Information Network Environment (SHINE)
- 2012 – 2016, Funded by: DIRECT.
- SHINE project aims at “efficiently satisfying information needs in a self-organizing system. The project consists of six cooperating sub-projects, which deal with managing information requests, deciding what and how to satisfy them, appropriately organizing the sensor network, gathering, integrating, and presenting the relevant information to the user”.
- My responsibilities:
- Design distributed self-adaptive algorithm to aggregate data from mobile devices.
- Design data aggregation algorithms for rainfall monitoring systems.