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Projects

Projects. Intelligent Data Sets Project. 3 year project ending December 31 2008 with a total budget of 2.7 mill USD Funded by Research Council of Norway (NRC) and participants Participants Operator Solution Providers Consultants Associations Collaborating associations and projects

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Projects

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  1. Projects

  2. Intelligent Data Sets Project • 3 year project ending December 31 2008 with a total budget of 2.7 mill USD • Funded by Research Council of Norway (NRC) and participants • Participants • Operator • Solution Providers • Consultants • Associations • Collaborating associations and projects • Accelerating Deployment of ISO 15926 (ADI) and FIATECH (US initiatives)

  3. One neutral, extendable description, supporting multiple views across phases and applications Intelligent Data Sets Project Objective • The objective of the project is to • Develop a methodology for mapping existing proprietary data representations to/from an ISO 15926 representation to support data exchange and integration using “Intelligent Data Sets” • This provides data separated from presentations, which again allows assembly of data in new formats targeted at new work processes • To study how this support new collaborative work processes within and between organizations is a research topic at the UiS. Many different, view dependant descriptions - business - company - phase (lifecycle) - application (DS/2D/3D) - etc

  4. Examples Of Inconsistent Representations

  5. Representation 2, Context 2 Representation 1, Context 1 Daily Challenges For Data Sheet Mapping • In order to resolve this, a neutral, system independent representation that can map to any proprietary representation is required. • Need to recognise which representation is used by which proprietary representation NORSOK B37 SHARECAT M45, M46, M47 ANSI/ASME B1.20.1 1/4 - 18 NPT-F

  6. Context Of Codes I

  7. Local Name Class Name Local Name Class Name Context Of Codes II T5: www.informativos.telecinco.es t5.no-thobben på nett Sony tilbakekaller Cyber-shot DSC-T5 Volvo T5 T5 here: T5 APPARATUS IEC 60079-0 IIC: International Institute for Conservation of Historic and Artistic Works IIC here: GROUP IIC APPARATUS IEC 60079-0 IP66: IP66 APPARATUS IEC 60529 EEx ia: EX IA APPARATUS IEC 60079-11

  8. IDS • Intelligent Data Sets • Support mapping and exchange between proprietary data sheet formats using 15926 templates and RDL • RDL/ontology development for Oil & Gas • Template development • Generic basic templates • Assembly into molecular templates • Represent complex data sheets using templates • Template application • Implement template definitions as instantiation scripts in (e.g.) SWRL • Rules generate rich 15926 structures for standardized storage • Common representation of data supports exchange • Validation and quality checks on data

  9. ADI • Accelerating Deployment of ISO 15926 (ADI) • Bechtel • Bentley • Fluor Daniel • The ADI project defines 15926 Part 7: Templates • Implementation methods for the integration of distributed systems • Develops SW for the RDS/WIP “inbox” • POSC Caesar provides • Methodology for Part 7 template specification, using First-order logic • Initial set of template definitions • Validation of templates using automated reasoning • 15926 Part 2 in OWL format • Longhand template definitions expressed as SWRL rules • Hosting ADI software to access POSC Caesar Reference Data System (RDS)

  10. ADI Sponsors • Hatch • Intergraph • KBR • National Institute of Standards & Technology (NIST) • Noumenon Consulting • NRX Global • OntoConsult • POSC Caesar Association • Procter & Gamble • Software Innovation • USPI • VTT • Aramco Services Company • Atomic Energy Canada Ltd • AVEVA • Barton Consulting • Bechtel Corporation • Bentley Systems • COADE • ConocoPhillips • Consolidated Contractors Company • DNV • Dow Chemical • DuPont • Fluor Corporation • Georgia Institute of Technology

  11. Lessons Learned From Developing ISO 15926 (I) • Need a neutral representation, independent of • Application • System • Lifecycle stage • An integration model • Conceptual model • Needed to be concerned with “what things are” as opposed to their representation • Need for semantics • How things are related • Need for a rich ontology

  12. Lessons Learned From Developing ISO 15926 (II) • The obvious choice for us was set theory and first order logic (FOL) • All specifications used in the industry are by nature about class membership • Developing a specification is adding constraints, i.e. defining subclasses • Later we ran into the problem “What is information about a class member as opposed to information about the class itself?” • Led to the identification of the need for Second Order Classes • The classes had to be dealt with as object • We have later discovered that we also have Third Order Classes • Will probably later need even higher level classes • Note that this is observations discovered from industrial needs. • We were introduced to OWL in 2003, and decided to test this to see if this was the way forward • We ran into lengthy discussions of OWL Full vs. DL • The current state of development indicates both, Full to support lifecycle data, DL for reasoning. • POSC Caesar, which is a Norwegian based industry association, and one of the organisations behind ISO 15926 has become W3C member, and is participating in the establishment of a W3C O&G Incubator Group.

  13. Lessons Learned From Developing ISO 15926 (III) • Most systems used in the industry are “proprietary” systems and will probably be in use for a long time to come • They all use their internal representations, and will continue to do so • Systems can be interfaced, but at a considerable cost. Resource restrictions. • They have to be interfaced to new systems whenever project participants change • If an ontology is not interfaced to existing systems it will only be useful for new developments, systems etc., not for use with existing systems • Tool support to map between standardised and proprietary representations. Templates (ISO 15926-7) and IDS tools are means to achieve this • An ontology will never be completed, a system must be in place to handle extensions • Capability to handle lifecycle data • Reasoning over data quality • Interfacing the ISO 15926 ontology to existing systems and setting up a system to handle extensions is what the IDS project is about

  14. Integrated Operations in the High North Project Outline May 2008

  15. Main Objectives • The primary objective of the project is to develop: • A demonstrated reliable digital platform for Integrated Operation Generation 2 (IO G2) in the High North • IO G2 pilots within drilling, R&P, O&M in the High North • Decision Support for drilling, R&P, O&M • IO G2 for the High North shall facilitate operations in remote and hazardous conditions, the use of limited operational personnel and “zero footprint” solutions

  16. Project Architecture – Technical view Business processes Unmanned Drilling rig Improved production Sub-ice operation Risk management for reliable information & IT Activity 4 Semantic oil and gas platform and information assurance Activity 3 Digital platform Networks, infrastructure and web services Activity 2 Autonomous and failsafe subsea control systems Activity 1 Activity 5 Activity 6 Activity 7

  17. Semantic Oil & Gas Platform Objectives: • To extend and improve the content and quality of the ISO 15926 based oil and gas ontology • To develop a prototype information validation service

  18. Semantic Oil & Gas Platform Main deliverables: • Ontology building methodology from the IDS project adapted to the addressed domains • Extended and improved Oil & Gas ontology with • Oil & Gas production ontology including relevant parts of PRODML, Daily Production Report and Monthly Production Report • ISO 10303-239 Product Life Cycle Support (PLCS) • Operation & Maintenance ontology including relevant parts of IBM’s RSM, ISA95 and ISA88 and ISO 13375/Mimosa • Drilling ontology • A prototype information validation service based on semantic web technology, IDS-templates and the oil & gas ontology

  19. Committed Participants and Funding • Committed to join: • StatoilHydro, Norwegian Defence, IBM, DNV, National Oilwell Varco, Invenia, Computas, Epsis, TietoEnator, FMC, SAS Institute, Kongsberg, PSA Centre of Integrated Operations, IRIS, NTNU, UiO, UiS, POSC Caesar, OLF, Abelia and FSi • Representing a total committed funding of 70 MNOK (RCN 17 MNOK) • Project will start as described with activity 2,3,4,5 and 7 • Activities 1 and 6 will start as soon as funding is secured • Start-up 2008-05-01 - Duration 4 years • Target total budget 90 MNOK

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