data sharing in high tech supply networks
TRANSCRIPT
DATA SHARING IN HIGH TECH SUPPLY NETWORKSMATTHIJS PUNTER
FOCUS AREAHIGH MIX, LOW VOLUME, HIGH COMPLEXITY
FOCUS AREAHIGH MIX, LOW VOLUME, HIGH COMPLEXITY
BRAINPORT INDUSTRIESOPEN SUPPLY NETWORK
100+ members
9.000 FTEs
2 bln euros turnover
OPEN SUPPLY NETWORKOEMS OUTSOURCING MORE
Transparency & risk mitigation
Flexibility to meet changing customer demands, reduced time-to-market & time-to-money
Shop floor agility
Work preparation requirements, administrative overhead costs
Factory planning, equipment utilization
Flexible manufacturing concepts: reduced time for programming/machine-setup, error-free
manufacturing
Already a challenge in a vertically integrated enterprise
Bigger challenge in an open supply network
CHALLENGESAGILITY OF THE SUPPLY NETWORK
DATA PERSPECTIVEAGILITY OF THE SUPPLY NETWORK
OEM
(Strategic) value sourcing strategies
QLTC (quality, logistics, technology and costs) evaluation of suppliers
Sharing of move rate-expectations and other forecasts
EDI (electronic data exchange) messaging and portals
3D PMI and Model Based Design: sharing of digital models instead of traditional drawings
Wholesalers
EDI (electronic data exchange)
E-commerce portals
OEMS AND WHOLESALERSEXISTING SOLUTIONS FOR AGILE SUPPLY NETWORKS
ANOTHER APPROACH NEEDEDAGILITY OF THE SUPPLY NETWORK
Traditional
portals & EDI
Traditional
portals & EDI
• Winner-takes-all platform
strategies → fear of loosing
out
• Transactions vs. data-sharing
→ feedback and visibility
• Low-volume, high-mix → large
and varying number
connections → transaction
cost theory economics!
FIELDLABSMART CONNECTED SUPPLIER NETWORK
Manufacturing companies
IT-vendors
Sector organizations
1. Standardization
2. Controlled Data Sharing
3. Business models to enable
large scale adoption
INGREDIENTSSMART SUPPLY NETWORK
Supply Chain Data
Industry 4.0 Asset Administration Shell
Equipment as shared production assets
Relevant sub models: planning & scheduling,
maintenance, performance
3D PMI (STEP AP242) based product designs
Used by ASML in The Netherlands for monoparts
Several wholesalers e.g. in sheet metal
SHARED SEMANTICS1. STANDARDIZATION
Supply Chain Data
Industry 4.0 Asset Administration Shell
Equipment as shared production assets
Relevant sub models: planning & scheduling,
maintenance, performance
3D PMI (STEP AP242) based product designs
Used by ASML in The Netherlands for monoparts
Several wholesalers e.g. in sheet metal
SHARED SEMANTICS1. STANDARDIZATION
• Ontological model for shared semantics
• Mapping to UBL messages
• Mapping to other syntaxes (JSON, cXML, etc.)
Supply Chain Data
Industry 4.0 Asset Administration Shell
Equipment as shared production assets
Relevant sub models: planning & scheduling,
maintenance, performance
3D PMI (STEP AP242) based product designs
Used by ASML in The Netherlands for monoparts
Several wholesalers e.g. in sheet metal
SHARED SEMANTICS1. STANDARDIZATION
Industry 4.0 standardized
digital representation of a
(manufacturing)
asset
Containing submodels for
different purposes
(maintenance, planning,
capabilities)
Continuously updated with
actual data (status,
performance, etc.)
Standardized interfaces
for querying the AAS of an
Asset
Supply Chain Data
Industry 4.0 Asset Administration Shell
Equipment as shared production assets
Relevant sub models: planning & scheduling,
maintenance, performance
3D PMI (STEP AP242) based product designs
Mandatory for ASML monoparts
Several wholesalers e.g. in sheet metal
SHARED SEMANTICS1. STANDARDIZATION
RETAIN SOVEREIGNTY OVER DATA2. CONTROLLED DATA SHARING
International Data Spaces Association
Reference Architecture Model
Connector concept
Built-in control: data authorisation and
usage control
Intermediary roles: directory/registry,
clearing house/shared ledger
Standard positioned as part of the European
GAIA-X Federated Cloud infrastructure
Singular connector: connect once, share with everyone →
key business proposition
• Shared
semantics
• Controlled
data sharing
TO FACILITATE ADOPTION3. BUSINESS MODEL
Service Providers:
Digital platforms, interconnected using IDS
Several providers: choose the most suitable for your business
Manufacturing companies
One-time integration with their own systems
Registration in the SCSN address book
SCSN foundation
Shared directory
Governance of standards and (technical!) agreements
• Shared
semantics
• Controlled
data sharing
TO FACILITATE ADOPTION3. BUSINESS MODEL
Service Providers:
Digital platforms, interconnected using IDS
Several providers: choose the most suitable for your business
Manufacturing companies
One-time integration with their own systems
Registration in the SCSN address book
SCSN foundation
Shared directory
Governance of standards and (technical!) agreements
• Strong network effects
• Stimulus for Service Providers to connect new companies
• Stimulus for manufacturing companies to connect customers and suppliers
• Foundation has no role in business transactions, limited shared infrastructure
• Fast growth: new manufacturing companies and service providers are joining
• 10+ Service Providers, 200+ manufacturing companies
Implementing the
Asset Administration Shell
Connect to factory automation and the
digital supply chain
Basis for flexible manufacturing
concepts (operator support/co-bots,
self-configuring machines, AGV-based
logistics)
Objectives: improved factory planning,
improved OEE, more agile production.
DIGITAL FACTORY FIELDLABBRAINPORT INDUSTRIES CAMPUS
DIGITAL EUROPE - MANUFACTURING DATA SPACEEUROPEAN EXPANSION
Focused on implementation
and roll-out (high-TRL)
Business-driven use cases
EU-funding
Calls expected in the Digital
Europe Programme mid-2021
onwards
The future is in collaborative manufacturing networks
Flexible, yet highly standardized solutions are needed
Data sovereignty is a must
Business model considerations need to be at the start of your endeavour
Join us in the Smart Connected Supplier Network and
future European Manufacturing Data Spaces
TAKE-AWAYS