B. Elvesæter, E. Landre, and A.-J. Berre, "Application of SHAPE Technologies in Production and Process Optimization", paper presentation at IESA 2010 Workshop “Use of MDI/SOA concepts in Industry”, Coventry, United Kingdom, 13 April 2010.

1. Application of SHAPE
Technologies in Production and
Process Optimization
IESA 2010 Workshop
Use of MDI/SOA concepts in Industry
Brian Elvesæter1, Arne-Jørgen Berre1 and
Einar Landre2
1
SINTEF ICT, P. O. Box 124 Blindern, N-0314 Oslo, Norway
2
Statoil, Forusbeen 50, N-4035 Stavanger, Norway
ICT

2. Presentation Outline
 SHAPE FP7 Project
 Solution Overview
 SoaML
 Solution Matrix
 Methodology Framework
 Statoil Case Study
 Business Context
 Use Case Challenges
 Application of SHAPE Technologies
 Questions
ICT

3. SHAPE FP7 Project
 Project acronym
 SHAPE
 Objective
 Develop an infrastructure for
model-driven engineering for
service-oriented landscapes with
support for various technology
platforms and extensions for
advanced service provision and
consumption techniques.
 Project full title
 Semantically-enabled
Heterogeneous Service
Architecture and
Platforms
Engineering
 Grant agreement number
 ICT-2007-216408
 Website
 http://www.shape-project.eu/
 Duration
 30 months
 Dec 2008 – June 2010
 Partners








SINTEF (Norway)
ESI (Spain)
SAP AG (Germany)
SOFTEAM (France)
UIBK (Austria)
DFKI (Germany)
Statoil (Norway)
Saarstahl (Germany)
ICT

4. SHAPE Solution Overview
 The technologies developed in the
project are centred around SoaML

Metamodel for describing serviceoriented landscapes that is standardized
in OMG.
 SoaML is extended with metamodels for


Flexible Business Modelling
BPMN
other technology platforms
advanced service engineering
techniques
EPC
…
BMM
SHA-ML
Core
Business Models
PIM
System Models
Service
Variability
SoaML
PIM4
SWS
CIM
P2P/Grid/
Components/…
PIM4
Agents
PIMsfor different
Architectural Styles
 The project provides
integrated tool suite that supports the
modelling
 encompasses the necessary model
transformations
 methodology framework that provides
role-specific guided procedures for
creating all model types and supports
the creation of customized
methodologies for individual engineering
projects

WSDL, WSMO, OWL JACK, JADE, JXTA, OGSA, CORBA, …
S,
J2EE, NetWeaver .Net, …
,
ICT
PSM
Implementation Models
Execution Environments

5. SoaML
 Service oriented architecture
Modeling Language (SoaML)
 Extensions to UML2.1 to
support service concepts.
 SoaML focuses on the basic
service modelling concepts.
 A foundation for further
extensions both related to
integration with other OMG
metamodels like BPMN 2.0,
SBVR, OSM, ODM and others.
 Website:
 http://www.soaml.org
 Capabilities:
 identifying services
 specifying services
 defining service consumers and
providers
 policies for using and providing
services.
 defining classification schemes
 defining service and service
usage requirements and linking
them to related OMG
metamodels, such as the BMM
and BPMN 2.0.
ICT

6. SHAPE Solution Matrix
MDE Infrastructure
MetaModels
Model Transformations
SHAPE Tool
Suite
SHAPE
Methodology
Technological Innovations
1 Flexible
Business Modelling
BPMN, EPC
Data, Org., Rules
BMM, Ontologies
CIM->CIM (mult.)
CIM -> PIM (mult.)
CIMFlex
Modelio
CIMFlex Modeling
BPMN + UML
Ontology Engin.
2 Service &
SOA Modelling
SoaML
SoaML -> WS
SoaML -> JEE
Modelio
Composition Studio
SoaML & WS
Modelling
3 Integration of
Agent Technology
SHAML – Agent
Extension
SoaML -> PIM4Agents
PIm4Agents -> PSM
4 Integration of
SWS Technologies
SHAML – SWS
Extension
SoaML-> SWSPim
SWSPim -> WSMO
WSMT
5 Service
Customization
Service Variability
Metamodel
SoaML-> SV-Spec.
SV-Res. -> Soaml
Service Variability
Tools
Agent Modelling
PIM4Agents
(PIM ->PIM2PSM->PSM)
SWS Modelling
(PIM ->PIM2PSM->PSM)
ICT
Service Variability
Modelling &
Variant Creation

7. SHAPE Methodology Framework
 Methods provide structured guidance.
 A matrix structure for organizing the
methodology content.
 Partial processes that define suitable
engineering procedures.
 Use and extend the Eclipse Process
Framework (EPF).
ICT

8. Business Context
 Statoil is an integrated technologybased international energy company
primarily focused on upstream oil and
gas operations.

The oil and gas industry need to improve
operational efficiency.
 The Norwegian Oil Industry Association
(OLF) has defined the term Integrated
Operations (IO) as “real time data
onshore from offshore fields and new
integrated work processes” .
increased exchange of information
across geographical and organizational
boundaries, internally and externally.
 drive for new IT solutions

 For this information exchange to be
successful, good interoperable IT
solutions and standards are needed.

With Integrated Operations the need for
standards are revitalized and changed.
 The focus now is implementation of IO
generation 1 solutions and strategic
planning of IO generation 2 solutions.
 Generation 1 activities focus on
integration across onshore and
offshore, while generation 2 activities
focus on integration across companies.
ICT

9. Use Case Challenges
 Production and Process
Optimization (PPO)
 Use case within Integrated
Operations
 Business and SoaML Modelling
1. Enable integrated and
comprehensive modelling of the
business processes.
2. Design services for enabling the
consistent and automated
information exchange among the
various IT systems.
 Service Variability
3. Enable system integration via
central services using simplified
variants that allow an easy usage
and integration.
 Semantic Web Services
4. Handle the integration of the often
incompatible information and data
structures used within the various
production systems.
ICT

10. Application of SHAPE Technologies
Method
Engineer
Define the
business
architecture for
PPO
1
Define the 0
methodology
for the use
case
Specify the
service-oriented
architecture for
PPO
2
3
Define service
variability (4)
and semantic
web service
(5) for
PRODML
subset
4
SHAPE Methodology Tool
ICT
Business
Architect
System
Architect
System
Developer

11. 0
Define Methodology
 Business challenge
 Methodological support
for service and system
engineering
 Provide guidance
for the various
roles
 Adaptable to
individual scenarios
 Tool suite steps
 Methodology configuration
wizard
 Role
 Method Engineer
 SHAPE technologies
 SHAPE Methodology
Customization Tool
 Custom delivery process
 Publish methodology website
ICT

12. 1
Business Modelling
 Business challenge
 Tool suite steps
 Enable integrated and
comprehensive modelling of
the business processes.
 Derive and specify IT
requirements/services that
aligns with the business models
 Role
 BMM modelling
<<part>>
Improved reservoir management
Optimize intelligent wells
<<part>>
<<+influence>>
Optimize reservoir performance
<<part>>
Production optimization
Optimize process facilitites
<<part>>
Optimize production network
 BPMN modelling
 Business Architect
 SHAPE technologies
 CIMFlex
 Modelio
ICT

13. 2
Service Modelling (1/2)
 Business challenge
 Tool suite steps
 Specify and design new
 Services Architecture
 Network of participant roles
providing and consuming
services to fulfil a purpose.
services for PPO
 Modernise/wrap existing
services using standards such
as PRODML
<<ServicesArchitecture>>
C ontinuousProductionOptimization
 Role
 System Architect
:He adO fO pe rations
 SHAPE
technologies
 SoaML
 Modelio
iaatal:Im ple m e ntActionsAccordingToActionList
:DPO Gro up
dpm ao:De taile dProductionMonitoringAndO ptim izatio n
:O PSLe a de r
:PO GCo ordinator
cpi:C onductPO GInte raction
coordinator
rsado a:R e vie wSugge stionsAndDe cide O nActions
opf:O ptim ize Proce ssFacility
facility
:Proce ssEngine e r
ICT

14. 2
Service Modelling (2/2)
 Tool suite steps (cont.)
 Tool suite steps (cont.)
 Service contracts/interfaces
 Defines the terms, conditions,
interfaces and choreography.
 Operation signatures
 Message types
<<interface, SOAML.ServiceInterface>>
PROD_ProductVolumeSoap
GetDataSync(in Pa ram eter : PR OD_Pro ductVolum eSoap_GetDataSyncType):PR OD_Pro ductVolum eSoap_GetDataSyncResp onseTyp e
GetDataAsyncInitiate(in Param eter : PRO D_ProductVo lum eSo ap_GetDa taAsyncInitia teT ype):GetDataAsyncInitiateRe sponseT ype
GetDataAsyncStatus(in Param eter : Ge tData AsyncStatusType):GetDa taAsyncStatusResponseType
GetDataAsyncCo ntrol(in Param eter : GetDa taAsyncControlT ype):GetDataAsyncC ontro lRe sponseTyp e
GetDataAsyncRe sults(in Param eter : Ge tData AsyncResultsType):PRO D_ProductVo lum eSo ap_GetDa ta AsyncResultsResponseType
GiveData(in Param eter : PRO D_ProductVolum eSoa p_GiveDataTyp e):GiveDataResponseType
<<ServiceC ontract>>
OptimizeProcessFacility
GetServiceInfo(in Param eter : Ge tSe rviceInfo Type):GetService InfoR esponse Type
GetSupportedPatterns(in Param eter : GetSup ported Patte rnsT ype):PRO D_ProductVolum eSoap _GetSupp ortedP atternsRe sponseT ype
<<SOAML.MessageType>>
PROD_ProductVolumeSoap_GetDataSyncType
coordina tor:Proce ssC oordina tor
obj_productVolumes
<<query>>
produc tV olumeQ uerySet
0 ..1
Op tions : O ptions
productVolumes
0..1
<<SOAML.MessageType>>
<<query>>
PROD_ProductVolumeSoap_GetDataAsyncInitiateType
productVolumeQuerySet
proce ssFa cility:Proce ssFa cility
<<SOAML.MessageType>>
PROD_ProductVolumeSoap_GetDataSyncResponseType
0..1
versio n : schem aVe rsionStringP ro dm l
productVolumes
<<SOAML.MessageType>>
PROD_ProductVolumeSoap_GetDataAsyncResultsResponseType
0..1
O ptio ns : Op tions
0 ..1
<<interface>>
ProcessCoordinator
cs_customData
<<ServiceInterface>>
OptimizeProcessFacilityInterface
coordina tor:Proce ssC oordinator
Confirm a tion()
facility:ProcessFacility
0..1
obj_productVolume
c us tomD ata
cs_commonData
uid : uidString
na m e : nam eStruct
0 ..1
c ommonD ata
*
documentInfo
cs_documentInfoProdml
FileC re ationInform ation : fileC re ationType
securityInform ation : SecurityInfo TypeProdm l
AuditTrail : aud itType
produc tV olume
sourceNam e : nam eString
dTim Creatio n : tim estam p
grp_productVolume
com m ents : com m entString
0 ..1
k ind : k ind String
is s uedBy
p e riodKind : R eporting Pe riod
d Tim Start : tim esta m p
0 ..1
d Tim End : tim esta m p
d ate Sta rt : date
approver
0 ..1
d ate End : date
d Tim Min : e ndpointQua lifiedDa teT im e
cs_generalAddress
k ind : Add re s sKind Enum
uid : uidString
nam e : nam eString
conta ctPreference[*] : Conta ctPreference
a ssociatedW ith : re fNa m e String
addres s
*
stree t[1..4] : nam eString
city : nam eString
state : nam eString
province : nam eString
county : nam e String
country : nam eString
postalCode : k indString
cs_geographicContext
country : nam eString
state : nam eString
0 ..1
0..1
cs_offshoreLocation
offs horeL oc ation
0 ..1
are aNam e : na m e String
field : nam eStruct
com m ent : com m entString
1..* facility
block ID[1..4] : nam e String
co m m ent : com m entString
cs_productVolumeFacility
cs_datedComment
uid : uid String
who : nam eString
*
downtimeReas on
facilityP are nt1 : fa cilityId entifie rStruct
facilityP are nt2 : fa cilityId entifie rStruct
ro le : k indString
*
c omment
re m a rk : co m m entString
c omment
parameterSet
nam e : facilityIdentifierStruct
dTim Start : tim estam p
dTim End : tim estam p
c omment
1
uid : uidString
*
facilityAlias : nam eStruct
unit : refNam eString
network : refNam eString
conte x tFa cility : fa cilityId entifie rStruct
*
0..1
*
parentfacility : refNam eString
Pro s o rd ato
ces C o in r
s ourc eFlow
0 ..1
0 ..1
subQ ualifier : FlowSub Qualifier
version : tim estam p
portD iff
versionSource : nam eString
nam e : facilityIdentifierStruct
facilityP are nt1 : fa cilityId entifie rStruct
facilityP are nt2 : fa cilityId entifie rStruct
k ind : Repo rtingFacility
p ort : refNam eString
unit : refNam eString
network : refNam eString
sourceFlo w : refNam eString
gor : volum ePerVolum eMe asure
gorMTD : volum ePerVolum eMe asure
waterConcMass : m assCo ncentra tionMeasure
cho k eSize : le ngthMea sure
cho k eRelative : leng thPerLengthMe asure
cs_productVolumeProduct
<<Participant>>
ProcessEngineer
*
p resDiff : pressureMea sure
tem pDiff : the rm odynam icTem pe ratureMeasure
waterConcVo l : volum ePerVolum eMeasure
atm o sphere : pressureMeasure
*
0..1
te m p : the rm o dynam icTe m p e ratureMeasure
pres : pressureMeasure
absoluteMinPres : pressureMeasure
product
k ind : R eporting Pro duct
cs_productVolumeRelatedFacility
relatedFac ility
fa cilityAlias[*] : nam eStruct
qualifie r : FlowQ ualifie r
uid : uidString
p ort : refNam eString
uid : uidString
qua dra nt : nam eString
block Suffix : str2
uid : uid String
nam e : nam eString
direction : ProductionFlowP ortTyp e
fa cility : facilityIdentifie rStruct
cap acity : volum eMe asure
o perationT im e : tim eMeasure
northSeaO ffs hore
cs_northSeaOffshore
areaNa m e : nam eString
cs_productVolumeFlow
k ind : Re portingFlow
port : re fNa m e String
wellProducing : logicalBoolean
wellInje cting : logicalBoolean
*
cs_productVolumeParameterSet
flow
cs_productVolumePortDifference
cs_volumeValue
vo lum e : vo lum eQ ualifie dMea sure
tem p : therm odynam icTem peratureMeasure
p res : pre ssureMea sure
volumeV alue
na m e : nam eStruct
splitFactor : nonNegativeFractio n
period
rvp : pressureMeasure
tvp : pressureMeasure
0..1
bsw : volum ePerVolum eMea sure
bswPre vious : volum e PerVolum eMea sure
de nsity : de nsityMe asure
de nsityStd : de nsityMe asure
1..*
*
c omponentC ontent
*
c omponentC ontent
cs_productVolumeComponentContent
sg : dim ensionlessMeasure
Pro s acility
ces F
suffix [0..9] : nam eString
e m a il[*] : em ailQualifierStruct
geographic C ontext
stand ard Tem pPres : Stand ard Tem pPress
cs_refProductFlow
Pro s acility
ces F
0 ..1
a lias[*] : nam eStruct
p honeNum ber[*] : phoneNum berStruct
com m ent : com m entString
a pprovalDate : date
p rod uctFlowModel : re fNam eString
refe rence dFlo w : refNam eString
:O ptim ize Proce ssFacilityInte rface
last : nam eString
nam e : nam eString
role[1..*] : nam eStruct
title : nam eStruct
issueDate : date
 Participants
 Represent organizational units
or system components.
first : nam eString
m iddle : nam eString
uid : uidString
conta ct[*] : refNam eString
p erso nnelCount : nonNega tiveCo unt
calcula tionMethod : Ca lculationMethod
:O ptim ize Proce ssFacilityInte rface
cs_businessAssociate
operator
installation : fa cilityId entifie rStruct
contex tFacility[*] : facilityIde ntifierStruct
C hok eP ositions()
prefix : nam eString
pers onN ame
d Tim Max : end pointQ ualifie dDateTim e
d Tim Current : tim estam p
<<Participant>>
POGCoordinator
cs_personName
Q ueryParam : que ryPa ram
dTim LastChange : tim estam p
item State : Item State
Actions()
Pro s o rd ato
ces C o in r
<<SOAML.MessageType>>
PROD_ProductVolumeSoap_GetSupportedPatternsResponseType
produc tV olumeQ uerySet
0 ..1
0 ..1
any[*] : x s:anyType
<<interface>>
ProcessFacility
produc tV olumes
<<SOAML.MessageType>>
PROD_ProductVolumeSoap_GiveDataType
hcDewpoint : therm o dynam icTe m peratureMeasure
wa terDe wpoint : therm od ynam icTe m p era tureMeasure
wo bbeInde x : m odulusOfCo m p re ssionMeasure
grossC alo rificValueStd : m odulusO fC om pressionMeas ure
rvpStabilizedC rud e : pressureMeasure
bswSta bilize dCrude : vo lum ePe rVolum eMeasure
de nsityStabilizedCrude : densityMeasure
dTim : tim e stam p
date : date
dTim Start : tim estam p
dTim End : tim estam p
uid : uidString
k ind : Repo rtingProduct
dateStart : da te
dateEnd : da te
referenceKind : R eportingP ro duct
volum e : volum eQ ualifiedMe asure
d e nsity : d e nsityMe asure
d ensityFlowRa te : m a ssFlowRateMe asure
volum eStd : volum e QualifiedMe asure
flowRa te : volum eFlowR ateQua lifiedMeasure
d e nsityStd : d e nsityMe asure
conce ntration : volum ePerVolum eMeasure
tem p : the rm odynam icTem pe ratureQ ualified Measure
pre s : pressureQua lifiedMeasure
m oleAm t : am ountO fSubstanceMeasure
m a ss : m assMea sure
work : work Measure
efficiency : volum ePe rVo lum eMeasure
m o leAm t : am ountO fSubstanceMeasure
ICT
0 ..1
cs_productVolumePeriod
uid : uidString
k ind : Repo rtingPerio d
cs_productVolumeAlert
alert
0 ..1
ta rge t : com m entString
leve l : k indString
typ e : k indString
descriptio n : com m entString

15. 3
Define service variability
 Business challenge
 Exists legacy systems with
complex interfaces.
 Want to integrate these using
simplified service variants.
 Want to make use of industry
standards (complex).
 Only want to use suitable
subset of standards.
 Tool suite steps




Import the SoaML model
Specify the service variant
Specify the service resolution
Export the service variant
<<interface, SOAML.ServiceInterface>>
PROD_ProductVolumeSoap_SimpleVariant
Ge tDa ta Sync(in P a ra m ete r : PR O D_Ge tDa ta SyncType _Sim ple Va riant):P R OD_Ge tDa ta SyncR e sponse Type _Simple Va riant
Give Da ta(in P a ra m e te r : P R O D_Give Da ta Type _Sim ple Va riant):Give Da ta Re spo nse Type
Ge tSuppo rte dP atte rns(in P a ram e te r : Ge tSuppo rte dP a tte rnsType ):P R O D_Ge tSuppo rte dP a tte rnsR e sponse Type _Sim ple Va riant
obj_productVolumes
<<query>>
productVolumeQuerySet
<<SOAML.MessageType>>
PROD_GetDataSyncType_SimpleVariant
cs_customData
versio n : sche m aVe rsio nStringPro dm l
uid : uidString
na me : nam e Struct
0 ..1
c ommonD ata
*
documentInfo
cs_documentInfoProdml
FileC re a tionInfo rma tio n : file C rea tio nType
se curityInfo rm a tion : Se curityInfo Type Pro dm l
produc tV olume
cs_personName
AuditTra il : a uditType
so urce Nam e : na m e String
dTim C rea tio n : tim e stam p
Q ueryP a ram : que ryP a ram
pre fix : na m e String
first : na m e String
dTim La stC ha nge : time sta m p
ite m Sta te : Ite mSta te
co m m e nts : co mm e ntString
cs_businessAssociate
operator
0 ..1
conte x tFa cility[*] : fa cilityIde ntifie rStruct
kind : k indString
is s uedB y
0 ..1
dTim Sta rt : tim esta m p
dTim End : tim esta m p
 Role
approver
da te Sta rt : da te
da te End : da te
0 ..1
dTim Min : e ndpo intQ ualifie dDa te Time
cs_generalAddress
ro le [1..*] : na me Struct
alia s[*] : na me Struct
pho ne Num be r[*] : pho ne Numbe rStruct
k ind : Addre ssKindEnum
uid : uidString
em a il[*] : e m ailQ ua lifie rStruct
na m e : na m eString
stre e t[1..4] : na m e String
co nta ctPre fe re nce [*] : C o ntactP re fe re nce
asso cia te dW ith : re fNam e String
addres s
pe rso nne lC o unt : no nNe ga tive C o unt
co m m e nt : co mm e ntString
calcula tionMe thod : C alcula tionMe thod
la st : na m e String
suffix [0..9] : na m e String
0 ..1
uid : uidString
na m e : na m e String
co nta ct[*] : re fNa m e String
dTim Ma x : e ndpo intQ ua lifie dDa te Time
dTim C urre nt : tim e sta mp
*
city : na m e String
sta te : na m e String
pro vince : na me String
co unty : na m eString
co untry : na me String
po sta lCo de : k indString
title : nam e Struct
issue Da te : da te
appro va lDa te : da te
pro ductFlo wMo de l : re fNa m e String
sta nda rdTe m pPre s : Sta nda rdTe m pPre ss
cs_geographicContext
geographic C ontext
country : na m e String
0..1
0..1
cs_offshoreLocation
offs horeL oc ation
state : nam e String
field : na me Struct
1..* facility
 System Developer
m iddle : na m eString
pers onName
grp_productVolume
insta lla tio n : fa cilityIdentifie rStruct
pe rio dKind : R epo rtingP e rio d
com m e nt : co m me ntString
0 ..1
a re aNa m e : na m eString
blo ck ID[1..4] : nam e String
co mm e nt : co m m entString
cs_productVolumeFacility
cs_datedComment
uid : uidString
*
*
downtimeReas on
who : na me String
ro le : k indString
*
dTim Sta rt : tim e sta m p
c omment
c omment
dTim End : tim e sta m p
re ma rk : co m m e ntString
1
uid : uidString
na m e : fa cilityIde ntifie rStruct
parameterS et
fa cilityP a re nt2 : fa cilityIde ntifie rStruct
fa cilityAlia s : na m e Struct
unit : re fNa me String
 SHAPE technologies
*
ne two rk : re fNa m e String
co nte xtFa cility : fa cilityIde ntifie rStruct
*
re fe re nce dFlow : re fNa m e String
pa re ntfa cility : re fNa me String
s ourc eF low
0 ..1
portD iff
unit : re fNam e String
ne two rk : re fNa m eString
so urce Flo w : refNa m eString
wa te rC oncVo l : vo lume P e rVolum e Mea sure
a tm o sphe re : pre ssure Me a sure
0..1
product
te m p : the rm odyna micTe m pe ra tureMe a sure
pre s : pre ssureMe a sure
a bso lute MinP res : pressure Me a sure
cs_volumeValue
vo lum e : vo lum e Q ualifie dMea sure
te m p : the rm odyna micTe m pe ra tureMe a sure
pre s : pre ssure Me a sure
volumeV alue
period
0..1
bswP re vio us : vo lume P e rVolum e Me a sure
de nsity : de nsityMea sure
de nsityStd : de nsityMe a sure
sg : dim e nsio nle ssMe a sure
hcDe wpo int : the rm odyna micTe m pe ra tureMe a sure
wa te rDe wpo int : therm o dyna m icTem pe rature Me asure
wo bbeInde x : m o dulusO fCo m pre ssio nMea sure
gro ssC a lo rificVa lue Std : m odulusOfC o m pre ssio nMe a sure
rvpStabilize dC rude : pre ssure Me asure
bswSta bilize dC rude : vo lume P e rVolum e Me a sure
de nsitySta bilize dC rude : densityMe a sure
1..*
*
c omponentC ontent
*
c omponentC ontent
cs_productVolumeComponentContent
dTim : tim esta m p
da te : da te
dTimSta rt : tim e stam p
dTimEnd : tim e sta mp
uid : uidString
k ind : R e portingP roduct
da te Sta rt : da te
da te End : date
re fe re nce Kind : R epo rtingPro duct
de nsity : densityMea sure
vo lume : volum e Q ua lifie dMe a sure
vo lume Std : vo lume Q ua lifie dMe asure
de nsityFlo wRa te : ma ssFlowR a te Me a sure
flo wRa te : vo lum e Flo wR a teQ ua lifie dMe a sure
de nsityStd : de nsityMe a sure
co nce ntra tion : vo lum e P e rVo lum eMe a sure
te m p : the rmo dynam icTe mpe ra ture Q ua lifie dMea sure
pre s : pre ssure Q ualifie dMea sure
m o leAm t : am o untO fSubsta nce Me a sure
m a ss : m a ssMe a sure
m o leAm t : am o untO fSubsta nce Mea sure
 Import into Modelio
 Generate the WSDL
0 ..1
cs_productVolumePeriod
uid : uidString
k ind : R e portingP e rio d
wo rk : wo rk Me a sure
e fficiency : vo lum e Pe rVo lum e Me asure
ICT
k ind : R e po rtingFacility
po rt : re fNam e String
wa te rC oncMa ss : m a ssC o ncentra tio nMe a sure
*
na m e : na me Struct
splitFa cto r : no nNe ga tive Fractio n
tvp : pre ssure Me a sure
bsw : vo lum eP e rVo lum e Mea sure
fa cilityP a rent2 : facilityIdentifie rStruct
ve rsio n : tim e sta m p
ve rsio nSo urce : na m eString
go r : volum e Pe rVo lume Me a sure
go rMTD : vo lume P e rVo lum e Me a sure
chok e R e lative : lengthP erLe ngthMe a sure
rvp : pre ssure Me a sure
na me : fa cilityIdentifie rStruct
fa cilityP a rent1 : facilityIdentifie rStruct
0 ..1
subQ ualifie r : Flo wSubQ ua lifie r
te mpDiff : the rm odyna micTe m pe ra tureMe a sure
chok e Size : le ngthMe a sure
k ind : R e po rtingP roduct
cs_productVolumeRelatedFacility
relatedF ac ility
fa cilityAlia s[*] : na m eStruct
qua lifier : Flo wQ ua lifier
*
presDiff : pre ssure Me a sure
cs_productVolumeProduct
na m e : na m e String
k ind : Re po rtingFlo w
dire ction : P ro ductio nFlo wP o rtType
fa cility : fa cilityIde ntifie rStruct
cs_productVolumePortDifference
uid : uidString
po rt : re fNa m e String
uid : uidString
qua dra nt : na m e String
blo ckSuffix : str2
uid : uidString
po rt : re fNa m eString
o pe ra tio nTime : tim eMe a sure
northS eaO ffs hore
cs_northSeaOffshore
a re aNa m e : na m e String
cs_productVolumeFlow
flow
0..1
we llInje cting : lo gica lBo o le an
ca pa city : vo lum e Mea sure
cs_refProductFlow
cs_productVolumeParameterSet
*
fa cilityP a re nt1 : fa cilityIde ntifie rStruct
we llP roducing : lo gicalBo o le an
c omment
 Service Variability Tool
 Modelio
<<SOAML.MessageType>>
PROD_GetSupportedPatternsResponseType_SimpleVariant
productV olumeQ uerySet
<<query>>
0..1
obj_productVolume
c us tomD ata
cs_commonData
<<SOAML.MessageType>>
PROD_GetDataSyncResponseType_SimpleVariant
0..1
0 ..1
0..1
0 ..1
any[*] : x s:a nyType
0..1
productVolumes
0..1
produc tV olumes
<<SOAML.MessageType>>
PROD_GiveDataType_SimpleVariant
cs_productVolumeAlert
alert
0 ..1
ta rge t : com m e ntString
le vel : k indString
type : k indString
de scriptio n : co mm e ntString

16. 4
Define Semantic Web Services
 Business challenge
 Dynamic service request (based on




goals)
Information mapping between
different data formats and
structures
EC legacy system with approved
Well Test data
IFM legacy system with estimated
Well Test data
Use PRODML WellTest subset
 Tool suite steps
 Define
ontologies
 Transform
to WSML
 Refine
WSML
 Role
 System Developer
 SHAPE technologies
 Modelio with SoaML4SWS
 WSMT
 WSMX
ICT

17. Evaluation of Results
 In the progress of writing up the final validation report.
 Statoil participates in research projects such as a SHAPE as part of a technology
feasibility study in order to experiment with and evaluate new technology and
methodological approaches.
 The evaluation will provide an input to future strategic decision regarding
technology and methodology choices.
 Initial conclusions
 The SHAPE results (languages, tools and methods) do provide the main concepts
and support for constructing business and service models.



Business and SoaML modelling
Service Variability
Semantic Web Services
 Methodology improvement areas
 Too “technology-driven” (CIM, PIM, and PSM) – should be more focused on users (roles
and tasks)
 Improve methodology website/navigation structure for users
 Some guidelines need revision (BPMN 2.0, aligned with latest changes of SoaML)
 Further illustrative examples.
 Tool suite improvement areas
 Usability issues
 Integration issues
ICT

18. Thanks for your attention!
Questions?
ICT