SIS/TK 280 Information och automation i produktlivscykeln Jonas - - PowerPoint PPT Presentation
SIS/TK 280 Information och automation i produktlivscykeln Jonas Rosn, ordfrande i TK 280, Eurostep Charlotta Johnsson, chair ISO/TC 184/SC5 deltagare TK 280, Lunds Tekniska Hgskola Ulf Carlsson, deltagare TK 280, Syntell Katarina
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Jonas Rosén, ordförande i TK 280, Eurostep Charlotta Johnsson, chair ISO/TC 184/SC5 deltagare TK 280, Lunds Tekniska Högskola Ulf Carlsson, deltagare TK 280, Syntell Katarina Widström, projektledare TK 280, SIS.
ISO/IEC JW21
Smart Manufacturing Reference Model(s)
CEN
European committee for standardization
SIS
Swedish standards institute
SIS/TK 280
SIS/TK 280 Information och automation i produktlivscykeln
Svenskt Europeiskt Globalt Organisation Kommittéer / Grupper
ISO/TC 184/SC5
Interoperability, integration, and architectures for enterprise systems and automation applications
ISO/TC 184
Automation systems and integration
IEC
International electrotechnical commission
ISO
International organization for standardization
ISO/TC 184/SC1
Physical device control
CEN/TC 310
Advanced automation technologies and their applications
ISO/TC 184/SC4
Industrial data
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Standardization in the field of automation systems and their integration for all life cycle
systems and integration technologies.
Interoperability, integration, and architectures for enterprise systems and automation applications
Physical device control
Industrial data
and sustainability
to support electronic communication and commerce
machine tool systems Charlotta
Published ISO Standards Related to the SC
ISO Standards under development
Direct Working Group (SG, WG and JWG)
Participating members
Observing members Chair: Charlotta JOHNSSON (Sweden) Secretary: Walter ZOLLER (USA) Hitflyttat Charlotta
Working Group Title Convenor WG1 Modelling and Architecture Richard Martin (USA) WG4 Manufacturing software and its environment Mitchiko Matsuda (Japan) WG5 Open systems application frameworks Hongye Su (China) WG6 Application Service Interface Robert Patzke (Germany) WG9 Key performance indicators for manufacturing operations mgmt Andreas Kirsch (Germany) WG10 Evaluation of energy efficiency and other relevant factors of a manufacturing system with respect to its environmental influence. Fumihiko Kimura (Japan) WG12 Convergence of informatization and industrialization (CII) Hongye Su (China) WG13 Equipment Behaviour Catalogue Naohisa Matsushita (Japan) SG5 Model-based standards authoring Study Group Dov Dori (Israel) JWG5 (IEC) Enterprise-Control System Integration Dennis Brandl (USA) JWG8 (SC4) Manufacturing process and management information Jochen Hartung (Germany)
Hitflyttat Charlotta
WG1 WG4 WG5 WG6 WG9 WG10 WG12 WG13 JWG5 JWG8 JWG14 Assuring that the KPIs for MOM are well-defined and applicable for many ind. Assuring KPIs for measuring energy efficiency and sustainability Interoperability between IT and OT Catalogization of Equipement Behaviour Enterprise-Control Integration
Integration of Devices for Measurement and Automation Manufacturing software and its environment Providing Models and Architectures for the full lifecycle history of integration projects Providing easy integration of Advanced-Process Control and Optimization Hitflyttat Charlotta
Note 1: Performance aspects include agility, efficiency, safety, security, sustainability or any other performance indicators identified by the enterprise. Note 2: In addition to manufacturing, other enterprise domains can include engineering, logistics, marketing, procurement, sales or any other domains identified by the enterprise.
Ändrad till Charlotta
Ändrad till Charlotta
Hitflyttat Charlotta
Today’s hierarchy Smart Manufacturing capabilities Tomorrow’s Network IEC 62264 (ISA 95) ”Manufacturing Pyramide”
each other.
with each other.
part of the whole system
Produce
machines and factories.
Integration
Supply Design Initiate & Direct Produce
Purpose Concept De comm- isioning
The Syste m
The Syste m The Syste m The Syste m
Re- Cycle Re-Use Dispos e
Retire
The Syste m
In Life Develop- ment Realization
Support Utilize
Digital Type System lifeline Digital Real System lifeline
Re- Supply
Real System lifeline Real System Re-Cycle lifeline (Designed for Re-Use and Re-Cycle)
Information flow Physical flow
Digital System lifeline
Good / Bad Add / Delete / Change Design
Actor A Actor B Actor C
Easy Digital Collaboration ?
Architecture Model
Information Standards
All the different layers have dependencies that must be considered in Business development Seman- tic Model Process Model Inform ation Model Organ- isation Model IT- Model
Software standardized interfaces Well defined semantics
(Saab Kockums)
Jonas
sharing
(DEXs, ISO STEP stds, methods & tools, incl XML/XSLT)
Jonas
Jonas
http://docs.oasis-open.org/plcs/plcslib/v1.0/cs01/data/PLCS/concept_model/model_base.html
Design and Individual Configurations Activities performed by people and product States failure &
Change Management
Jonas
Extended Enterprise of OEM’s, Customer, Partners and Suppliers Enterprise Integration through dedicated networks Domain specific information systems (e.g. CAD, MRPII, Planning)
Dept Enterprise Customers Partners Tier 1 Suppliers Tier 2 Suppliers
Extended Enterprise Integration Product Life Cycle Internet-based architecture and federated data models make possible implementations involving thousands of users across many sites Capture product info for support use Develop the support solution PLCS Domain Maintain product Provide feedback
Concept Assessment Demonstration Manufacture In-Service Disposal
Product Lifecycle Management (PLM) Product Life Cycle
Jonas
Source:http://private.ap242.org/web/ap242/ap242ed1 Overview of AP242 edition 1 information model Jonas
Source:http://www.asd-ssg.org/mossec Jonas
Source:http://www.asd-ssg.org/mossec Jonas
Source: CALS Technical Goal 2 Jonas
Source: https://www.posccaesar.org/ Jonas
Jonas Dold bild
The industrial system enabling products trough their life cycle
Dimension Core concepts Cross dimension shared concepts A dimension
USA/ NIST SMS Ecosystem Germany Industrie 4.0 RAMI
Countries JWG21 Input reference models for smart manufacturing Meta-model for Smart Manufacturing Reference Model (SMRM)
SM Use Cases
ISO/IEC SMRM
SM Reference System mofel SM Standards
SSIF
and more
Ändrad till Ulf https://www.plattform-i40.de/PI40/Navigation/EN/InPractice/UseCases/use-cases.html Ny länk
Funded by the Swedish Strategic Innovation Program Produktion2030, a joint venture of VINNOVA, Formas and the Swedish Energy Agency. June 2017-May 2020 For more information, contact Gunilla Sivard: Gunilla@kth.se
1. Automation and automated decision making 2. Distributed system of systems 3. High interconnection between factory floor and digital representation 4. Ability to analyze outcome for improvement 5. Fast, wireless, communication (real time access) 6. Fast computing 7. Digital representations of systems and products with model based engineering 8. High interconnection across domains and life cycle phases 9. Secure access to information 1. Artificial intelligence for decision making, human-robot collaboration 2. Service oriented architectures, cloud computing, interoperability standards 3. Smart sensors, scanning, connection between physical reality and digital model 4. Statistics, machine learning 5. 4G, 5G, 6G, standard communication protocols 6. Cloud computing, Edge computing 7. Digital twins, product models, modeling principles, virtual reality, simulations 8. Lifecycle models, digital thread, model based collaboration methods, information standards 9. Block chains, PLM
1. Automation and automated decision making 2. Distributed system of systems 3. High interconnection between factory floor and models 4. Ability to analyze outcome for improvement 5. Fast, wireless, communication (real time access) 6. Fast computing 7. Digital representations of systems and products for model based engineering 8. High interconnection across domains and life cycle phases 9. Secure access to information
PLCS overview concept model, PLCS official concept model http://www.plcs.org/plcslib/plcslib/data/PLCS/concept_model/model_base.html
Product type Activity method Breakdown Product version Product individual version Activity Work request Work Order Location Project Contract Observation Baseline Product definition Resource
implement utilizes / applies to method used utilize directive In response to is observation consequence
State
actual state
has versions defined by (design) references State agreed commercial, technical and work terms and conditions
V & V Requirements Part System Interface Slot Document
realize have relates to
Physical System Functional Zonal
is of type
Planned Realized Schema
Schedules Give sequence to
Planned Actual Task
modus operandi by
Product Individual
is instanses of
Context
applies in
State observed State defintion
diagnosis trough
Trigger
trigger states trigged by Product Design Individual Product Product Breakdown Product Description Status Activity Specification Activity Lifeline Product Environment Management Process
Grupp
Sälj och Order Krav hantering Uppdragsstyrnin g (Projekt och Ärenden) Konfigura tions Ledning Arkitekur Simulering / Modellering System design Material admininistration Uh- Design CAD Inköp & Supply Produktions Planering Produktion Test och verifiering Drifts uppföljning Underhålls planering Verkstads planering Miljö/ Skrotning
Informations kategorier
Requirements Product type Part Baseline Product version System Interface Slot Document Product Individual Product individual version Planned Realized Physical System Functional Zonal Context Product definition Observation State observed State defintion State Trigger Task Activity method Schema Activity Planned Actual
Product Environment
Location Project Contract V & V Resource Work Order Work request Processer som skapar (S) / använder (A) informationen Skriv in exempel på programvara som är källa till informationen i de celler som motsvarar de informationskategorier vilka programvaran hanterar
Product Design Activity Lifeline Management Process Individual Product Product Breakdown Product Description Status Activity Specification
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Tobias Ljungkvist, Syntell