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PROTEUS SIGNED

AdaPtive micROfluidic- and nano-enabled smart systems for waTEr qUality Sensing

Total Cost €

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EC-Contrib. €

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Partnership

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 PROTEUS project word cloud

Explore the words cloud of the PROTEUS project. It provides you a very rough idea of what is the project "PROTEUS" about.

supports    prepared    packaging    chemical    validation    integration    span    deployments    monolithic    goals    deep    budget    upstream    interoperability    interfaces    enabled    actors    reconfigurable    energy    post    consistency    cmos    predefined    hindering    additional    platform    nanotubes    service    business    carbon    multifunctional    benchmarking    water    autonomy    applicative    chip    components    proteus    nano    mems    renowned    impeding    microfluidic    harvesting    efficiency    redundancy    time    life    cognitive    reconfigurability    submicron    sensor    function    board    rheological    downstream    brings    differentiated    flow    x10    resistive    massive    blocks    manufacturability    innovative    levels    industrial    building    model    functions    monitoring    physical    made    coping    chain    quality    appropriate    relates    majority    size    sensors    effectiveness    software    sensing    adaptive    guarantee    inclusion    reliability    heterogeneous   

Project "PROTEUS" data sheet

The following table provides information about the project.

Coordinator
INSTITUT FRANCAIS DES SCIENCES ET TECHNOLOGIES DES TRANSPORTS, DE L'AMENAGEMENT ET DES RESEAUX 

Organization address
address: BOULEVARD ISAAC NEWTON 14 CITE DESCARTES 14-20
city: MARNE LA VALLEE CEDEX 2
postcode: 77447
website: www.ifsttar.fr

contact info
title: n.a.
name: n.a.
surname: n.a.
function: n.a.
email: n.a.
telephone: n.a.
fax: n.a.

 Coordinator Country France [FR]
 Project website http://www.proteus-sensor.eu/
 Total cost 3˙993˙520 €
 EC max contribution 3˙993˙520 € (100%)
 Programme 1. H2020-EU.2.1.1.1. (A new generation of components and systems: Engineering of advanced embedded and energy and resource efficient components and systems)
 Code Call H2020-ICT-2014-1
 Funding Scheme RIA
 Starting year 2015
 Duration (year-month-day) from 2015-02-01   to  2018-01-31

 Partnership

Take a look of project's partnership.

# participants  country  role  EC contrib. [€] 
1    INSTITUT FRANCAIS DES SCIENCES ET TECHNOLOGIES DES TRANSPORTS, DE L'AMENAGEMENT ET DES RESEAUX FR (MARNE LA VALLEE CEDEX 2) coordinator 575˙145.00
2    CHAMBRE DE COMMERCE ET D'INDUSTRIE DE REGION PARIS ILE-DE-FRANCE FR (PARIS) participant 625˙625.00
3    UNINOVA-INSTITUTO DE DESENVOLVIMENTO DE NOVAS TECNOLOGIAS-ASSOCIACAO PT (CAPARICA) participant 555˙000.00
4    UNPARALLEL INNOVATION LDA PT (PORTIMAO) participant 462˙500.00
5    UNIVERSITA DEGLI STUDI DI PERUGIA IT (PERUGIA) participant 438˙125.00
6    WINGS ICT SOLUTIONS INFORMATION & COMMUNICATION TECHNOLOGIES IKE EL (NEA SMYRNI) participant 423˙875.00
7    AQUALABO CONTROLE FR (CHAMPIGNY SUR MARNE) participant 363˙125.00
8    EASY GLOBAL MARKET SAS FR (VALBONNE) participant 288˙750.00
9    SERVICOS MUNICIPALIZADOS DE AGUA E SANEAMENTO DE ALMADA PT (ALMADA) participant 261˙375.00

Map

 Project objective

Water management requires massive, low-cost monitoring means coping with differentiated and evolving requirements. However, the majority of multifunctional water sensors only supports predefined goals hindering interoperability, with a high cost, impeding large scale deployments. Addressing this, PROTEUS aims at offering x10 reduction in both size and unit function cost compared to state of the art. To this end, an increased number of functions will be integrated at a reduced cost and PROTEUS will deliver a reconfigurable microfluidic-and nano-enabled sensor platform for cognitive water quality monitoring. Innovative embedded software will provide reconfigurability of the sensing board to support several differentiated applicative goals while cognitive capabilities will manage evolving requirements during exploitation. Energy autonomy will be made by harvesting water flow energy. In addition, low cost of additional sensing components will enable redundancy increasing life span of the systems. The main challenge relates to the heterogeneous integration into a monolithic, microfluidic sensing chip of carbon-nanotubes-based resistive chemical sensors, of MEMS physical and rheological resistive sensors and of a multifunctional adaptive deep-submicron CMOS system on chip. Upstream, high level system design addressing industrial use cases, manufacturability and cost-effectiveness, packaging, energy budget and interfaces between building blocks, will enable consistency and efficiency of the whole approach. Downstream, system validation will be carried out at different levels: benchmarking, reliability assessment to guarantee service time, model deployments and field testing. The consortium brings together renowned actors along the whole value chain, including system integration and end users. This will contribute to post-project exploitation prepared by ensuring appropriate inclusion of business requirements within the system design.

 Deliverables

List of deliverables.
Mid project report on dissemination and exploitation Documents, reports 2019-04-15 09:31:57
Field Test final report Documents, reports 2019-04-15 09:23:16
Use case description Documents, reports 2019-04-15 09:22:19
Final version of smart system co-design Documents, reports 2019-04-15 09:59:49
Report on 1st phase validation, including energy, sensing, reliability, model deployment Documents, reports 2019-04-15 09:10:51
End project report on dissemination and exploitation Documents, reports 2019-04-15 09:36:34
Project website Other 2019-04-15 09:18:45
Report on 2nd phase validation, including energy, sensing, reliability, model deployment Documents, reports 2019-04-15 09:12:41
Requirements analysis Documents, reports 2019-04-15 09:42:30
Requirements and Exploitation Strategy Documents, reports 2019-04-15 09:51:27
Data management plan Open Research Data Pilot 2019-04-15 09:32:11
Manufacturability plan Documents, reports 2019-04-15 10:02:23
First version of smart system co-design Documents, reports 2019-04-15 09:53:59
Technology Transfer Directory Documents, reports 2019-04-15 09:37:41

Take a look to the deliverables list in detail:  detailed list of PROTEUS deliverables.

 Publications

year authors and title journal last update
List of publications.
2016 Richa Arya, João P. Oliveira
Gm-C Biquad Filter for Low Signal Sensor Applications
published pages: , ISSN: , DOI:
Mixed Design of Integrated Circuits & Systems (MIXDES) 2019-05-30
2015 Ivan Bastos
Wideband CMOS Low Noise Amplifiers
published pages: , ISSN: , DOI:
Phd Thesis December 2015 2019-05-30
2015 Fulvio Michelis
Wireless Nano Sensors for Embedded Durability Monitoring in Concrete
published pages: , ISSN: , DOI:
October 2015 2019-05-30
2015 F. Cottone, M. Mattarelli, H. Vocca, L. Gammaitoni
Effect of boundary conditions on piezoelectric buckled beams for vibrational noise harvesting
published pages: 2855-2866, ISSN: 1951-6355, DOI: 10.1140/epjst/e2015-02593-5
The European Physical Journal Special Topics 224/14-15 2019-05-30

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