Frictionless energy efficient convergent wearables for healthcare and lifestyle applications

Periods: 2017.g. aprīlis - 2020.g. marts

Kopējais budžets: ~2.41M Eiro

Projekta koordinators: Adrian Ionescu, EPFL

Partneru skaits: 17

Iesaistītās valstis (8): Šveice, Itālija, Francija, Belģija, Latvija, Rumānija, Igaunija, Turcija

Projekta mērķis ir radīt energo efektīvu, multifunkcionālu, bezvadu valkājamo sensoru platformu, kas ļaus lietotājam saņemt personalizētus ieteikumus un palīdzību veselīgākam dzīvesveidam un laicīgai veselības traucējumu novēršanai.

EDI projektā izstrādā cilvēka aktivitāšu monitoringa sistēmu.

The I-MECH target is to provide augmented intelligence for wide range of cyber-physical systems having actively controlled
moving elements, hence support development of smarter mechatronic systems. They face increasing demands on size,
motion speed, precision, adaptability, self-diagnostic, connectivity, new cognitive features, etc. Fulfillment of these
requirements is essential for building smart, safe and reliable production complexes. This implies completely new demands
also on bottom layers of employed motion control system which cannot be routinely handled by available commercial
products. On the ground of this, the main mission of this project is to bring novel intelligence into Instrumentation and Control
Layers mainly by bridging the gap between latest research results and industrial practice in related model based engineering
fields. Next, I-MECH will deliver new interfaces and diagnostic data quality for System Behavior Layer. It strives to provide a
cutting edge reference motion control platform for non-standard applications where the control speed, precision, optimal
performance, easy reconfigurability and traceability are crucial. The high added value of I-MECH reference platform will be
directly verified in high-speed/big CNC machining, additive manufacturing, semicon, high-speed packaging and healthcare
robotics. In these sectors, the main project pilots will be validated. However, the platform will be applicable in many other
generic motion control fields. The project outputs will impact on the entire value chain of the production automation market
and, through envisioned I-MECH center, create sustainable proposition for future smart industry