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Main lines of research
• Multiscale computational modeling for multimod- • Smart devices for ambient assisted living: devel-
Research groups
al diagnosis: methods and technologies for the detection of biological and pathological events and to provide a quantitative understanding of the relationships between elements of complex biological systems through the integration of personalized knowledge in multiple scales: from genomic and proteomic level to whole body level.
• Integration Architectures for health and social services: integration architectures for heteroge- neous and distributed health services that allow the access, knowledge generation and man- agement of personalized medical care delivery. Integration architectures for the provision of standard-based health and social services. Inter- mediation software technologies (middleware) to support service architectures for generating new medical/clinical knowledge in real-time.
opment of methods and techniques for design- ing and validating assisted living environments through distributed intelligent devices. Applica- tion to the elderly and chronic pathologies. De- velopment of methodologies and techniques for the design and validation of wearable systems based on the concepts of design-for-all and de- sign space for citizens with special needs.
• Methods and techniques of electromagnetism applied to medical nanotechnology: modeling and characterization of the interactions of elec- tromagnetic fields with biological tissues at dif- ferent levels, and their applications; design of in- telligent devices for therapy/diagnosis at micro-/ nano level, and communications.
Institution: Universidad de Sevilla · Contact: Escuela Sup. de Ingenieros · Avda. Los Descubrimientos, s/n. 41092 Sevilla · Tel.: 95 448 73 42 · E.mail: [email protected] · Web: http://gib.us.es/
CIBER-BBN I Annual report 2015 I 93
