ALBERTO MACII

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Professore Ordinario (L.240)

+39 0110907090 / 7090 (DAUIN)

Pagina web personale

Gruppi di ricerca EDA - Electronic Design Automation
Laboratori LAB 4 - Research laboratory
Progetti di ricerca

Finanziati da bandi competitivi

  • La casa nel parco, (2018-2020) - Responsabile Scientifico

    Ricerca Regionale - Piattaforme Tecnologiche

    Abstract

    Il progetto “La Casa nel Parco” propone soluzioni per l’e-health come applicazione di tecnologie ICT oltre lo stato dell’arte nella gestione dei processi sanitari, nella telemedicina e telemonitoraggio, allo scopo di supportare l’accessibilità e interoperabilità delle informazioni e dei servizi sanitari, il decentramento della cura, la razionalizzazione delle risorse ed il miglioramento dei percorsi assistenziali.Il focus principale del progetto è l’ospedalizzazione a domicilio (OAD) nel contesto del futuro prossimo dei due Parchi della Salute e della Ricerca e dell’Innovazione di Torino e di Novara. L’opportunità di lavorare e sviluppare tecnologie di avanguardia per due futuri grandi ospedali ad alta intensità, permette di ripensare il modello OAD già dalla fase di progettazione degli ospedali e dei loro processi e percorsi clinici e di contestualizzarlo nel sistema dei servizi sanitari del territorio.

    Paesi coinvolti

    • ITALIA

    Enti/Aziende coinvolti

    • CONSOFT SISTEMI SPA

    Strutture interne coinvolte

  • 300mm Pilot Line for Smart Power and Power Discretes, (2017-2021) - Responsabile Scientifico

    Ricerca UE - JTI - ECSEL

    Vedi la scheda del progetto su CORDIS

    Abstract

    R3-POWERUP will push through the new generation of 300mm Pilot Line Facility for Smart Power technology in Europe. This will enable the European industry to set the world reference of innovative and competitive solutions for critical societal challenges, like Energy saving and CO2 Reduction (ref. to COP21 Agreement ), as well as Sustainable Environment through electric mobility and industrial power efficiency.? Development and demonstration of a brand new 300mm advanced manufacturing facility addressing a multi-KET Pilot Line (i.e. Nanoelectronics, Nanotechnology, Advanced Manufacturing)? Improvement in productivity and competitiveness of integrated IC solutions for smart power and power discrete technologies.The strategy of the project is the following:? The Pilot Line will enable the realization of sub-100nm Smart Power processes, starting from the 90nm BCD10 process, taking profit from the advanced and peculiar equipments available only for 300mm wafer size.? The availability of a 300mm full processing line will also exploit the portability to 300mm of the most critical and expensive process steps devoted to power discrete devices.? The Pilot Line will build on Digital Factory and Industry 4.0 principles, enforcing a flexible, adaptive and reliable facility, in order to investigate also the synergy and economic feasibility of supporting both Smart Power and power discrete processes in the same manufacturing line.? The application of such technologies will be a breakthrough enabler for Energy Efficiency and CO2 Reduction worldwide, in line with COP21s global action plan. The Pilot Line is based on three main pillars:1. Market driven continuous innovation on smart-power and power discrete;2. Industrial policy focused on high quality and mass productions cost optimization; 3. Set the ground for future wafer upgrade of More than Moore disruptive technologies (e.g. advanced MEMS manufacturing, now at 200mm)

    Paesi coinvolti

    • Slovacchia
    • Belgio
    • Polonia
    • Finlandia
    • Paesi Bassi
    • Germania
    • Austria
    • Israele
    • Repubblica Ceca
    • Francia
    • Italia
    • Eire
    • Romania
    • Spagna

    Enti/Aziende coinvolti

    • SLOVENSKA TECHNICKA UNIVERZITA V BRATISLAVE
    • ICOS VISION SYSTEMS NV
    • SIEC BADAWCZA LUKASIEWICZ - INSTYTUT MIKROELEKTRONIKI I FOTONIKI
    • PICOSUN OY
    • NANO DESIGN SRO
    • TRITEM SPOLKA Z OGRANICZONA ODPOWIEDZIALNOSCIA
    • ADVANCED PACKAGING CENTER BV
    • ANCOSYS GMBH
    • ROBERT BOSCH GMBH
    • EV GROUP E. THALLNER GMBH
    • ASM EUROPE BV
    • KLA-Tencor MIE GmbH
    • ATOTECH DEUTSCHLAND GMBH
    • SILTRONIC AG
    • APPLIED MATERIALS ISRAEL LTD
    • INSTITUT MIKROELEKTRONICKYCH APLIKACI SRO
    • APPLIED MATERIALS FRANCE
    • LAM RESEARCH SAS
    • VYSOKE UCENI TECHNICKE V BRNE
    • NOVA MEASURING INSTRUMENTS LTD
    • UNIVERSITA DI PISA
    • CONSIGLIO NAZIONALE DELLE RICERCHE
    • APPLIED MATERIALS IRELAND LIMITED
    • AP&S INTERNATIONAL GMBH
    • UNIVERSITA DEGLI STUDI DI PAVIA
    • SOITEC SA
    • POLITECNICO DI TORINO
    • UNIVERSITATEA POLITEHNICA DIN BUCURESTI
    • CONSORZIO NAZIONALE INTERUNIVERSITARIO PER LA NANOELETTRONICA
    • BESI AUSTRIA GMBH
    • GREEN POWER TECHNOLOGIES SL
    • LASER SYSTEMS & SOLUTIONS OF EUROPE
    • DISCO HI-TEC EUROPE GMBH
    • UNIVERSIDAD DE SEVILLA

    Strutture interne coinvolte

  • VerSatilE plug-and-play platform enabling remote pREdictive mainteNAnce, (2017-2020) - Responsabile Scientifico

    Ricerca UE - H2020 - Cross-cutting activities - IND

    Vedi la scheda del progetto su CORDIS

    Abstract

    The growing complexity of modern engineering systems and manufacturing processes is an obstacle to concept and implement Intelligent Manufacturing Systems (IMS) and keep these systems operating at high levels of reliability. Additionally, the number of sensors and the amount of data gathered on the factory floor constantly increases. This opens the vision of truly connected production processes where all machinery data are accessible allowing easier maintenance of them in case of unexpected events. SERENA project will build upon these needs for saving time and money, minimizing the costly production downtimes. The proposed solutions are covering the requirements for versatility, transferability, remote monitoring and control by a) a plug-and-play cloud based communication platform for managing the data and data processing remotely, b) advanced IoT system and smart devices for data collection and monitoring of machinery conditions, c) artificial intelligence methods for predictive maintenance (data analytics, machine learning) and planning of maintenance and production activities, d) AR based technologies for supporting the human operator for maintenance activities and monitoring of the production machinery status. SERENA represents a powerful platform to aid manufacturers in easing their maintenance burdens and for this purpose will be applied in different applications. More specifically, SERENA project will focus on advancing the TRL of the existing developments into levels TRL5 to TRL7. For this purpose, SERENA consortium will fully demonstrate the proposed approach in different industrial areas (white goods, metrological engineering and elevators production) and investigate applicability in steel parts production industry (extended-demonstration activities) checking the link to other industries (automotive, aerospace etc.) showing the versatile character of the project.

    Paesi coinvolti

    • Finlandia
    • Germania
    • Spagna
    • Italia
    • Paesi Bassi
    • Eire
    • Grecia

    Enti/Aziende coinvolti

    • TEKNOLOGIAN TUTKIMUSKESKUS VTT OY
    • FRAUNHOFER GESELLSCHAFT ZUR FOERDERUNG DER ANGEWANDTEN FORSCHUNG E.V.
    • TRIMEK SA
    • WHIRLPOOL EMEA SPA
    • OCULAVIS GMBH
    • VDL WEWELER BV
    • POLITECNICO DI TORINO
    • FINN-POWER OY
    • EMC INFORMATION SYSTEMS INTERNATIONAL
    • SYNAREA CONSULTANTS SRL
    • ENGINEERING - INGEGNERIA INFORMATICA SPA
    • PANEPISTIMIO PATRON
    • KONE INDUSTRIAL OY

    Strutture interne coinvolte

  • AMable - AdditiveManufacturABLE, (2017-2021) - Responsabile Scientifico

    Ricerca UE - H2020 - Cross-cutting activities - IND

    Vedi la scheda del progetto su CORDIS

    Abstract

    EU SMEs/mid-caps face clear barriers in the uptake of Additive Manufacturing (AM) related to lack of skilled human resources, and lack of access to know-how, equipment, infrastructure and markets. The principal objective of this project is to overcome those barriers and enable the uptake of AM technologies by SMEs/mid-caps leading to the development of innovative business and service models and new value-chain models in a fully digital environment thus bringing their ideas and business cases to life and making their innovations Additively Manufacturable (AMable). To achieve this objective, partners with expertise right across the AM value chain have been brought together from the four corners of the EU to:- create an open-sourced-based, living and adapting AM eco-system which can offer required assistance to European SMEs/mid-caps and become self-sustainable after project execution;- provide all necessary assistance to SMEs/mid-caps allowing successful exploitation of AM, including 3 competitive calls for experiments;- offer a comprehensive range of (at least 10) AM support services through an open source- and API-based digital marketplace structured as three Platforms (Technology, Business, and Skills and Education);- support and develop best in class AM data handling tools and approaches, on an open-source basis.;- coordinate the development of synergies with the already existing I4MS framework, Competence Centres, Digital Innovation Hubs and other related research and innovation activities at the European level.Through these activities, the following direct impacts are anticipated:- >50 SME/mid-cap application experiments - >150 SME/mid-cap business case evaluations and/or Application Experiments- >500 people trained through AMable approved courses- >2,000 SMEs/mid-caps reached through training, roadshow and exhibition events- specific support for EU-13 countries, with >5 centres supported and coached

    Paesi coinvolti

    • Belgio
    • Spagna
    • Paesi Bassi
    • Finlandia
    • Cipro
    • Germania
    • Danimarca
    • Italia
    • Svizzera
    • Polonia
    • Regno Unito
    • Grecia

    Enti/Aziende coinvolti

    • SIRRIS HET COLLECTIEF CENTRUM VAN DE TECHNOLOGISCHE INDUSTRIE
    • EUROPEAN FEDERATION FOR WELDING JOINING AND CUTTING
    • ZABALA INNOVATION CONSULTING, S.A.
    • NEDERLANDSE ORGANISATIE VOOR TOEGEPAST NATUURWETENSCHAPPELIJK ONDERZOEK TNO
    • LORTEK S COOP
    • TEKNOLOGIAN TUTKIMUSKESKUS VTT OY
    • ASOCIACION DE INVESTIGACION METALURGICA DEL NOROESTE
    • FREDERICK RESEARCH CENTER
    • INTERNATIONAL DATA SPACES EV
    • TEKNOLOGISK INSTITUT
    • CISCO SYSTEMS INTERNATIONAL BV
    • ATOS SPAIN SA
    • POLITECNICO DI TORINO
    • KEEN BULL SAGL
    • INSPIRE AG FUR MECHATRONISCHE PRODUKTIONSSYSTEME UND FERTIGUNGSTECHNIK
    • SCUOLA UNIVERSITARIA PROFESSIONALE DELLA SVIZZERA ITALIANA
    • PWC STRATEGY& (GERMANY)GMBH
    • POLITECHNIKA WROCLAWSKA
    • THE MANUFACTURING TECHNOLOGY CENTRE LIMITED
    • PANEPISTIMIO PATRON
    • TWI LIMITED

    Strutture interne coinvolte

  • Sviluppo Tecnologico dell'Additive Manufacturing in Piemonte, (2016-2019) - Responsabile Scientifico

    Ricerca Regionale - Piattaforme Tecnologiche

    Abstract

    Il progetto STAMP intende sviluppare e consolidare le tecnologie di Additive Manufacturing (AM) all’interno del panorama industriale piemontese. STAMP, attraverso una serie di attività di ricerca dedicate, porterà ad un’evoluzione di tutta la filiera Additive Manufacturing, in particolare per le tecnologie comunemente definite Powder Bed (PB) e Direct Deposition (DD), allo scopo di superare le attuali limitazioni di processo. STAMP, grazie alla sinergia tra centri di ricerca e PMI, sarà in grado di dimostrare l’efficacia econvenienza della produzione Additive Manufacturing per il settore industriale piemontese attraverso due principali filoni di intervento:- La progettazione orientata all’Additive Manufacturing intesa come la somma di tutte quelle tecniche di design e simulazione necessarie per sfruttare appieno tutte le possibilitàdell’approccio AM. STAMP intende eliminare l’approccio empirico (trial&error) al processo attualmente impiegato, definendo le linee guida per la corretta progettazione AdditiveManufacturing. STAMP dimostrerà la validità di tale approccio attraverso la riprogettazione e produzione di casi studio dedicati, selezionati tra i componenti dei settoriautomotive e aeronautico.- Il miglioramento delle tecniche di deposizione AM Powder Bed e Direct Deposition, indagandone i limiti e sviluppando soluzioni tecnologiche avanzate per ridurre gli attuali limiti di processo, incrementando ad esempio tutta la fase di controllo e monitoraggio. STAMP validerà i miglioramenti, in termini di velocità di produzione e controllo di processo, realizzando due dimostratori di macchina di deposizione Additive Manufacturing, una basata sulla tecnologia Powder Bed ed una sulla tecnologia Direct Deposition.

    Paesi coinvolti

    • ITALIA

    Enti/Aziende coinvolti

    • Prima Industrie S.p.A.

    Strutture interne coinvolte

Finanziati da contratti commerciali

  • Convenzione di collaborazione tra il Poltiecnico di Torino - Dipartimento di Automatica e Informatica e il Centro Regionale Sportivo Libertas del Piemonte, (2022-) - Responsabile contrattuale

    Convenzioni Dipartimentali

    Paesi coinvolti

    • ITALIA

    Enti/Aziende coinvolti

    • Centro Regionale Sportivo LIBERTAS del Piemonte
  • Sostegno alla realizzazione di progetti di ricerca industriale e sviluppo sperimentale, (2020-2022) - Responsabile Scientifico

    Ricerca Commerciale

    Paesi coinvolti

    • ITALIA

    Enti/Aziende coinvolti

    • SSB PROGETTI SRL

    Strutture interne coinvolte

  • Fab digitalization and thermo-mechanical modeling and simulation, (2018-2021) - Responsabile Scientifico

    Ricerca Commerciale

    Paesi coinvolti

    • ITALIA

    Enti/Aziende coinvolti

    • STMICROELECTRONICS S.R.L.

    Strutture interne coinvolte