Le Key Enabling Technologies nelle Tecnologie Prioritarie
|
|
|
- Ashley Smith
- 5 years ago
- Views:
Transcription
1 Andrea Porcari Associazione Italiana per la Ricerca Industriale Le Innovazioni del Prossimo Futuro: Tecnologie Prioritarie per L'industria, VIII edizione, AIRI, 2012 Le Key Enabling Technologies nelle Tecnologie Prioritarie
2 Assessment of Priority Technologies (PT) for the Italian Industry 8th edition (running since the 90s) 100 R&D Managers involved Short/medium term tech 8 key industrial sectors and 84 priority tech identified Representative of the Italian landscape (AIRI) 2012 edition: + analysis of KETs in the 8 sectors Sectors and number of Priority Tech identified per sector (on a total of 84) Manufacturing systems 10 Transport (ground, rail, marine) 19 Aereonautics 12 ICT 9 Micronanoelectronics 6 Farma & Bio 8 Energy 7 Chemicals 13
3 Key Enabling Technologies drivers for EU industrial growth European Commission policy report: A Stronger European Industry for Growth and Economic Recovery ( ): The global market of KETs is forecast to increase by over 50% from 646 billion to over 1 trillion by 2015 (around 8% of the EU's GDP) Europe is a global leader in R&D for KETs, with a global patent share of more than 30%. Europe is slower than our trading partners in converting research into marketable goods and services. Need for cooperation/coordination of R&I policies (government, industry, public research) to maximize KETs benefit AIRI promoted (2012) a WG on KETs at national level, on the basis of its regular assessment of the industrial tech in Italy
4 The analysis of KETs KETs Working Group: experts from industry and academia, in close relation with the Priority Tech WG Members: AIRI/Nanotec IT, CNR, Mossi & Ghisolfi Group, Finmeccanica, Ericsson, Politecnico di Milano, STMicroelectronics Scope: providing a strategical vision of KETs at national level Methodology: Analysis of background information Collection of inputs from Priority Tech coordinators (PT-KETs matrix) Desk analysis of the Priority Tech report (Priority tech vs. KETs matrix) Nanotech Micronano Biotech Photonics Advanced Materials AMS SECTOR 1 (es.ict) PT1.1 (SECTOR 1, PRORITY TECH 1) PT1.2 (es ICT - tech for wide band networks) PT1.3 (es ICT - tech for home networks) PT1.4. SECTOR 2 PT2.1 PT2.2 PT2.3
5 Background: KETs and Priority Tech are closely related Key Enabling Technologies (KETs) Knowledge, capital-intensive tech: Pervasive, enabling process, innovation throughout the economy Systemic relevance High R&D Rapid and integrated innovation cycles High capital expenditure Highly skilled employment Multidisciplinary, transsectorial Trend towards convergence, tech integration Priority Technologies (PT) for the Italian industry Enabling tech (not products): Innovative and of concrete industrial/ business relevance Impact on national economy (jobs, export, competition ) impact on one or more sectors (systemic relevance) 3 years application timeframe (rapid innovation cycles) Integrated in a value chain perspective PT are also generally: capital intensive require highly skilled employment 5
6 How KETs contribute to Priority tech SECTOR KETs Priority Technology 1 Specific Tech 1 PT2 Specific Tech 2 KETs PT3 KETs Three cases: KET same as the sector (e.g. micro-nanoelectronics, AMS) KET same as the Priority Technology (es. nanomaterials for catalysis) KETs contribute to some extent to the Priority tech 6
7 KETs KETs contribution to industry sectors breakdown by KET Fotonica Biotech Nanotech Materiali avanzati Sistemi avanzati prduzione Micro e nanoelettronica 0% 10% 20% 30% 40% 50% 60% Number of Priority Tech with contribution by KETs ICT Micro-nanoelectronics Energy Chemicals Farma & Bio Aereonautics Transport (ground, rail, marine) Manufacturing systems
8 KETs contribution to industry sectors: breakdown by sector AMS 10/10 ICT 5/9 MICRO- /NANO 6/6 KETs contribute to all 8 sectors More than 75% of the 84 Priority Tech includes at least one KET TRANS PORT 19/19 Cross Cutting KETs ENERG Y 7/7 More than 45% PT includes at least 3 KETs AERO 9/12 PHARM A/BIO 8/8 CHEM. 6/13 More than 30% PT includes at least a KET with TRL>6 (A/B) Total number of Priority Tech per sector / PT including at least one KETs 8
9 AMS structural materials, sensors and components (performance, efficiency, quality, env. Impact) ICT data computing,storage (big data), visualization, sensors tech home networks, security MICRO-NANO silicon integration, photovoltaics, sensors, silicon photonics TRANSPORT structural /functional materials, power train tech (power, transmission, fuel) (perfomance, efficiency,, env, impact) Nanotech ENERGY Solar energy tech, fuel cells, clean coal tech, Carbon capture and storage (CCS) tech AERONAUTICS materials & processes (structures, engines, maintainance), low env. impact technologies PHARMA/BIO Novel analytical techniques, delivery and imaging systems, minimally invasive tech CHEMICALS structural and functional materials for the manufacturing industry Nanotech contributes to smore than 50% of Priority Technologies 9
10 AMS systems automation, integration, process monitoring, diagnosis, mantainance, efficiency and quality of integrated systems ICT: data computing,storage (big data),, visualization, sensors, wide band networks, home networks, human-machine interface,security MICRO-NANO silicon integration, photovoltaics, sensors, Si alternative materials, heterogeneus integration, silicon photonics TRANSPORT Smart device & systems for (efficient) power train, infomobility, human-machine interface Micronano electronics ENERGY Solar energy tech, smart grid/smart metering/smart energy, fuel cells AERONAUTICS condition based maintances systems, autonomous systems tech, human-machine interface PHARMA/BIO Novel analytical techniques (High throughput screening, etc), -omics technologies (DNA microarray, ecc) CHEMICALS functional materials for the manufacturing industry Micro-nano contributes to some 60% of Priority Technologies 10
11 AMS green, low env. impact process technologies, ICT - MICRO-NANO sensors technologies TRANSPORT power train tech (power, transmission, fuel) (perfomance, efficiency, env. impact) Biotech ENERGY biofuels from renewable resources and waste; Carbon capture and storage (CCS) tech AERONAUTICS - PHARMA/BIO biomarkers, biomolecular production, minimally invasive tech, advanced therapies CHEMICALS renewable resources tech (biorefinery and bioproducts, such as bioplastics, bioethanol, biopolymers) Biotech contributes to some 30% of Priority Technologies 11
12 AMS components for systems automation, integration, process monitoring, diagnosis, mantainance ICT: Wireless & wireline wide band networks, security MICRO-NANO photovoltaics, sensors tech, heterogeneus integration, silicon photonics TRANSPORT device & systems for veichle system energy efficiency Photonics ENERGY Solar energy tech, smart grid/smart metering/smart energy AERONAUTICS condition based maintances systems PHARMA/BIO Imaging systems, minimally invasive tech CHEMICALS functional materials for the manufacturing industry Photonics contributes to some 30% of Priority Technologies 12
13 AMS structural materials for components and systems (perfomance, efficiency, env. impact) ICT: data computing,storage (big data), wireless & wireline wide band networks, security tech MICRO-NANO silicon integration, photovoltaics, sensors, Si alternative materials, heterogeneus integration, silicon photonics TRANSPORT structural /functional green materials, human-machine interf., power train tech, (quality, perfomance, efficiency, env. impact) Advanced materials ENERGY Power generation (gas, coal), Solar energy, geothermal, Carbon capture and storage (CCS) AERONAUTICS materials & processes (structures, engines, maintainance), (quality, perfomance, efficiency, env. impact) PHARMA/BIO delivery systems, minimally invasive tech CHEMICALS environmental remediation, renewable resources tech, functional materials for the manuf. industry Advanced materials contributes to more than 55% of Priority Technologies 13
14 AMS materials, systems, software, ICT based solutions for AMS (just in time, on demand, sustainability, quality, env impact...) ICT: data computing,storage (big data), wireless, & wireline wide band networks, security tech MICRO-NANO silicon integration, photovoltaics, sensors, Si alternative materials, heterogeneus integration, silicon photonics TRANSPORT structural /functional green materials, power train tech (quality, perfomance, efficiency, env, impact) Advanced manufacturing systems ENERGY Power generation (gas, coal), Solar energy tech, geothermal, Carbon capture and storage (CCS) tech AERONAUTICS materials & processes (structures, engines, maintainance), low env. impact technologies PHARMA/BIO minimally invasive tech CHEMICALS renewable resources tech, functional materials for the manuf. industry AMS contributes to more than 55% of Priority Technologies 14
15 Conclusions Cross cutting KETs, contributing in most national priority industrial tech Key competences across sectors, products, value chains Common challenges and drivers across sectors and technologies R&I as a tool for competitiveness Sustainable/Responsible R&I: quality/standard of products and work organizations, efficiency, Reuse, Reduce, Recycle Aligment of KETs framework with Italian industrial system (as represented by AIRI) Different levels of maturity of KETs
16 Thanks for your attention Andrea Porcari Associazione Italiana per la Ricerca Industriale