1 INDUSTRY 4.0 giving new opportunities for innnovative cooperation Manufuture 2017, Moving up the value chain 24-25 October 2017, Tallinn, Estonia, Inst. for Computer Science and Control, Hungarian Academy of Sciences (MTA SZTAKI) Dep. of Manufact. Science and Techn., Budapest Univ. of Techn. and Economics (BME) Centre of Excellence in Production Informatics and Control (EPIC) Ipar 4.0 National Technology Platform, Hungary Prof. László Monostori Presented by: Dr. Géza Haidegger, senior CIM res.eng, - ManuFuture-HU, EUREKA
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INDUSTRY 4.0 giving new opportunities for innnovative cooperation
Manufuture 2017, Moving up the value chain24-25 October 2017, Tallinn, Estonia,
Inst. for Computer Science and Control, Hungarian Academy of Sciences (MTA SZTAKI)
Dep. of Manufact. Science and Techn., Budapest Univ. of Techn. and Economics (BME)
Centre of Excellence in Production Informatics and Control (EPIC)
Ipar 4.0 National Technology Platform, Hungary
Prof. László Monostori
Presented by:
Dr. Géza Haidegger, senior CIM res.eng, - ManuFuture-HU, EUREKA
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Board of the institute
Director
Dr. László Monostoriacademician
Director of Science
Dr. József Bokoracademician
Director of Finance
Mrs. Mariann Dörnyei
Deputy Director
Dr. József Pfeiffer, PhD
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External Advisory Board
Prof. Csirik János, Hungary (Chair)
Prof. László Pap, Hungary
Prof. Gábor Stépán, Hungary
Prof. Hendrik van Brussel, Belgium
Prof. Paul M.J. Van den Hof, Holland
Prof. Jürgen Beyerer, Germany
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Mission of the institute
Relying on its strong – and characteristically focused – basic
research activities, MTA SZTAKI generates new results while
utilising a framework of widespread domestic and
international cooperation, and facilitates their applications
to the benefit of the sustainable development of the
economy and society, and at the same time, avails in its
fields of activity to preserve, and as far as possible, to raise
the Hungarian scientific-technical culture to a higher level.
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Established in 1964
2001: EU Centre ofExcellence in IT, CSand Control
2017: EU Centre ofExcellence in ProductionInformatics and Control
Focused basic andapplied research
Contract-based R&Đ&I
Transferring up-to-dateresults to industry anduniversities
Basic research Computer science
Systems- and control theory
Engineering and business intelligence
Machine perception and human-computer interaction
Applied research andinnovation
Vehicles and transportation systems
Production informatics and logistics
Energy and sustainable development
Security and surveillance
Networking systems and services, distributed computing
Key figures
Budget 11 MEuros/year
~30% basic funding
Staff ~240 (FTE)
~100 with scientific degree
7 members of the Hungarian Academy of Sciences
15 with DSc degree
70+ with PhD degree
~15 members in Hungarian Academy of Engineering
MTA SZTAKI – Introduction
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Participation in the international scientific communities
Contributions to the scientific organisations acting in the fields of SZTAKI(CIRP, IEEE, IFAC, IMEKO, …)
The main international scientific recognitions in the past years
International Federation of Automatic Control (IFAC): Fellowship, Council membership, and Outstanding Service Award
Institute of Electrical and Electronics Engineers (IEEE): Fellowship
International Academy for Production Engineering (CIRP): Fellowship and Presidency
Royal Flemish Academy of Belgium for Science and the Arts (KVAB): Foreign membership
National Academy of Science and Engineering, Germany (acatech): extraordinary membership
Computer Science: Ericsson Hungary, OTP Bank, Bosch
Engineering and Management Intelligence: Hitachi, Audi Motor Hungaria,GE Hungary, Jaguar-LandRover, Opel, Volvo, Festo, BPW, Knorr-BremseFékrendszerek Kft, Aventics Hungary, Denso + significant number of SMEs
Systems and Control Theory: Bosch, Audi, Knorr-Bremse FékrendszerekKft, Paks Nuclear Power Plant
2015: Subsidy in Győr (near to Audi Hungary)
2016: Subsidy in Kecskemét (near to Daimler Hungary)
Main industrial partners
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SZTAKI - Fraunhofer Society cooperation
http://www.fraunhofer.hu
Project Centre for Production Management and Informatics, May 2010
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MTA – Audi – SZTAKI – Győr –Széchenyi István University cooperation
Centre of Excellence in Vehicle Technology Research (J3K), June 2015
Cooperative laboratory infrastructure for CPPS research
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Interplay between CS, ICT and manufacturing
After: Monostori, L. (2014), Procedia CIRP, 17:9-13.
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CPPS – Industrie 4.0 (Industry 4.0)
Source: Bauernhansl, T. 2016
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Industrie 4.0 (D) Advanced Manufacturing, Industrial Internet (US) Made in China 2025 (RC) Industry 4.0 → Society 5.0 (J), Robot Revolution Initiative (J) The Catapult Programme (UK) Alliance Industrie du Futur (F) Made in Sweden (S) Smart Industry (NL) Smart Connected Factory (Korea) Industrie 4.0 Österreich (A) Initiative Industry 4.0 Průmysl 4.0 (CZ) Smart Industry (SK) Ipar 4.0 National Technological Platform (H)
CPPS programmes world-wide
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Ipar 4.0 National Technology Platform in HungaryMembership:
SZTAKI and the Ministry for National Economy,and 37 founding members
Now ~ 100 members
The transformation to a legal entity is on the way
Irinyi Plan -- Recent strategy of the Ministry of National Economy
Main directions of the re-industrialisation of the country
Target: by 2020 the share of industrial production in the GDP should increase from the current 24% to 30%
Increase the level of R&D expenditures to 1.8 % of the GDP by 2020
Specifically mentioning the Industry 4.0 related R&D&I activity in the manufacturing
Launching new complex programs
Reinforcing the growth, export and innovation potential of the domestic companies
Employment: „low skill” → „high skill”
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National I4.0 strategy – structure and priorities
Pillar Digitalization and
business
development
Production and
logistics
I4.0 labour market
development
Research,
development and
innovation
I4.0 ecosystemDimension
TechnologyDedicated
digitalizationinvestment programs
Improved efficiency and increased
capacities
Infrastructure for I4.0 training and education
Production related RDI services
Technology and infrastructure development
SocietySurvey and attitude
shaping
Concentratedstrategy projects, supplier programs
From vocational I4.0 training up to graduate and postgraduate
education
Reinforcing science, RDI programs
Legislation, standardisation,
control
BusinessRevival of SMS
business modelsCluster formation In-company training
New business models, RDI incubation
Digital I4.0 networks
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Tasks ahead of Ipar 4.0 NTP
Evaluate the national I4.0 survey in detail
Elaborate the national I4.0 roadmap
Qualification system
Monitoring system for I4.0 strategy implementation
Adopt best practice solutions
Cover all educational aspects of I4.0 which determine the highest priority HR preconditions and implications for its implementation in practice
Facilitate progress in culture and the change of existing paradigms of thinking
Formulate recommendations as for developing and applying new business models
Especially for SMEs and start-ups
Define the final legal and organisational form of the Platform
Harmonise with the EU directive Digital Single Market Strategy for Europe
Formalize relationships with similar organizations in the CEE region
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Signing ceremony in Brussels, 2017.02.16
Centre of Excellence in Production Informaticsand Control (EPIC)
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Centre of Excellence in Production Informaticsand Control (EPIC)
2002: Virtual inst. with FhG IPA
2010: Fraunhofer-SZTAKIProject Centre
2001: SZTAKI EU CoE
https://www.centre-epic.eu/
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EPIC: Priority research fields and main activities
Strengthening of the innovation culture and accelerating the innovation process
Spreading of new technologies and methodologies in Hungary with the support of the foreign partners
Industry 4.0 oriented developing of production enterprises including SMEs within the framework of innovation projects
Strengthening the supplier industry and by this way making them more competitive
Developing and deploying Pilot Industry 4.0 solutions and systems
Educating and training of specialists
Setting up of knowledge triangles in different regions of the country
RF1
RF2
RF3 RF5
RF6
Cooperative and adaptive production networks
Situation-aware,resource efficientand robust productionplanning and control
Extensively monitored, controlled and pluggablemachine tools and systemsCollaborative robotics,
human-robot symbiosis
Robust, cooperative andcoordinated control in
cyber-physical systems
RF4 Advanced technologies for flexible production systems
Advanced ICT technologies,pilot CPSS demonstration systems
RF1
RF2
RF3 RF5
RF6
RF4
RF7
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Some personal experiences
Building National CIM Technology Platform -1985 Integrating shop-floor material- and information flows 1987 Open control architectures of manufacturing systems - 1992 R&D&I networked design-and-operation of factories -1997 EU – Centre of Excellence project-manager 2001- Hungarian National representative: EUREKA Factory Umbrella 2000 -
