1. Copyright (C) The Open Group 2011 Quantum Lifecycle Management

2. Copyright (C) The Open Group 2011 “If your product could tell what to do with itself next…what could YOU do with that?” 2

3. Copyright (C) The Open Group 2011 3 quan·tum [kwon-tuhm] noun: quantity or amount, a particular amount, a share or portion, a large quantity; bulk; Physics: the smallest quantity of some physical property, such as energy adjective: sudden, spectacular, or vitally important: a quantum improvement Why Quantum Lifecycle Management?

4. Copyright (C) The Open Group 2011 B eyond P roduct L ifecycle M anagement  Historically, the PLM acronym is usually associated with the Beginning- of-Life (design & manufacturing) phase and is mainly focused on information about each series of products rather than every individual product instance  QLM is the next major leap beyond PLM, addressing instance-level, closed-loop lifecycle information management from Beginning, through Middle to End-of-Life  QLM standards and infrastructure will be applicable to other kinds of lifecycles such as supply chain, food and beverage, human, services etc.  QLM will increase competitiveness and enable new business opportunities 4 Why Quantum Lifecycle Management?

5. Copyright (C) The Open Group 2011 Scope of QLM  QLM addresses whole-of-life, closed-loop lifecycle information management  enables more efficient exploitation of new technologies and embedded systems  QLM provides a safe, secure, unified way to connect the trillions of autonomous objects in the “Internet of Things” with people, existing systems and standards  QLM delivers an open architecture and interface standard to:  Reduce organizations’ costs through managing whole-of-life lifecycle information  Enable lifecycle management of diverse services rather than pure products

6. Copyright (C) The Open Group 2011 Livestock Appliances Food and Beverage People Barcode Technologies Logistics Machines QLM Data Services, Knowledge Management and Decision Support Sensors Environment RFID Technologies Aerospace Scope of QLM

7. Copyright (C) The Open Group 2011 Middle of Life Reduced maintenance or care costs Improved customer/ client support Reduction in failures Middle of Life Reduced maintenance or care costs Improved customer/ client support Reduction in failures Beginning of Life Exploit knowledge of past lifetime histories More effective BOL management e.g. product re-design or reduced costs Beginning of Life Exploit knowledge of past lifetime histories More effective BOL management e.g. product re-design or reduced costs End of Life Cost-effective component recovery Increased reuse of parts Verification of proper disposal End of Life Cost-effective component recovery Increased reuse of parts Verification of proper disposal Reduced care and maintenance costs Focused recall/outreach Improved traceability Improved inventory management Reduced counterfeits QLM – Some Key Benefits

8. Copyright (C) The Open Group 2011  Formed under The Open Group, leading the development of open, vendor-neutral global IT standards and certifications  Create an open and trustworthy information exchange for whole-of- life lifecycle management enabling Boundaryless Information Flow™  Overcome “islands of information” through integration of existing lifecycle information sources  ERP, CRM, maintenance information  Integrate trillions of autonomous objects in the “Internet of Things”  Access embedded sensors and new technologies  Make it a unified reality Enable the Vision by: Establishing Certification Program Promoting QLM adoption Creating new business opportunities & increasing competitiveness QLM Work Group Vision

9. Copyright (C) The Open Group 2011 9 Open Group Synergy

10. Copyright (C) The Open Group 2011  QLM Architecture  User requirements drawn from a wide representation of industrial domains and applications  Applications cover the complete product lifecycle and across different industrial sectors  Specifications defined for each interface and component of the architecture  QLM Standards  Data Model - Standard for “lightweight” product lifecycle data representation  Messaging Interface - Standard for lifecycle information exchange with systems and “things” via Internet QLM Work Group Deliverables

11. Copyright (C) The Open Group 2011  QLM will enable whole-of-life lifecycle management exploiting the “internet of things”  Join us to realize the vision of a connected world for boundaryless lifecycle information management:  E-mail qlm-interest@opengroup.org for membership information or contact Mike Hickey, Open Group Director, at m.hickey@opengroup.org or David Potter, Member Chair, at david.potter@PROMISE-Innovation.comqlm-interest@opengroup.org m.hickey@opengroup.org david.potter@PROMISE-Innovation.com www.opengroup.org/qlm Summary

12. Copyright (C) The Open Group 2011 Backup

13. Copyright (C) The Open Group 2011 BOL Product Development Product Supply MOL EOL PLM@XML PLM Services ISA-95 MANDATE STEP STEP-NC PLCS Only in certain Industries Existing product data representation standards

14. Copyright (C) The Open Group 2011 Business Aircraft Spl Ind Equipment Telecom switchgear Aircraft engine Avionics Military ship Commercial ship Military aircraft Commercial aircraft Submarine Power plant Oil production rigs Computers Leisure vehicles Radio/radar Automobiles Transmissions Special m/c tools Agri machinery Engines Trucks Power turbines Mining equipment Trucks Landing gear Elevators Process plant Army vehicles Domestic appliances Consumer electronics Bicycles Exhaust systems Boats Lawn equipment Rail cars Transformers Business Aircraft Spl Ind Equipment Telecom switchgear Aircraft engine Avionics Military ship Commercial ship Military aircraft Commercial aircraft Submarine Power plant Oil production rigs Computers Leisure vehicles Radio/radar Automobiles Transmissions Special m/c tools Agri machinery Engines Trucks Power turbines Mining equipment Trucks Landing gear Elevators Process plant Army vehicles Domestic appliances Consumer electronics Bicycles Exhaust systems Boats Lawn equipment Rail cars Transformers Product complexity Low Medium High Product complexity Low Medium High Support complexity LowMediumHigh Support complexity LowMediumHigh PLCSQLM Comparison with PLCS Copyright (C) The Open Group 2011

15. How can the design of the product be improved? How much stock should be kept? Return/ Discard Return/ Discard Manufacture Usage/ Maintenance Usage/ Maintenance Retail Which parts can be reused? When to schedule the next maintenance? Which parts should be replaced? When to schedule the next maintenance? Which parts should be replaced? BOL MOL EOL Business intelligence Analysis and transformation (software) Data gathering (hardware) Information - knowledge Data - information QLM Management Use Case

16. Copyright (C) The Open Group 2011  Enables efficient management of item-level product data  Addresses need for “lightweight” PLM standards  Implemented already in >10 application scenarios  Documented in publicly available project reports  Planned Semantic Interoperability through UDEF enabling QLM Standard – Data Model

17. Copyright (C) The Open Group 2011  Messaging interface specifications for data transfer between QLM components  Supports notification of lifecycle events in addition to sensor data management  Bi-directional communication with systems and “things”  Defined using XML schema QLM Standard – Messaging Interface

18. Copyright (C) The Open Group 2011 QLM Interfaces and Components