Enabling innovation through mechatronic product lifecycle management
Asset Lifecycle Management: flexible infrastructures enabling future change
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Transcript of Asset Lifecycle Management: flexible infrastructures enabling future change
Asset Lifecycle Management
Panel Enabling a flexible infrastructure that allows for future changes
Luc Hossenlopp, Energy CTO
Prague, May23rd, 2013
Schneider Electric 2 - Division - Name – Date
Some sources DISTRIBUTECH 2013 – San Diego
CIGRE B5 2013 – Belo Horizonte
Pac World 2013 - Dublin Pac World 2012 - Budapest
Schneider Electric 3 - Division - Name – Date
IEC 61850 Maturity Level
Benefits
Time
Traditional
Technology
QUICK
HITS
GOOSE
Standard Clients
Proxy for legacy protocols
In-built Ethernet switches
DEEP
CHANGES
New Companion Standard
(Cyber-security, Redundancy, etc.)
New applications & Architectures
(Grid, Asset Management, etc.)
New processes & engineering tools
(Design, Tests, Virtualization, etc.)
COPY
“Learning
Curve”
WE ARE HERE
Schneider Electric 4 - Division - Name – Date
Some learning example
Cope with More Data & Data Exchanges
●Communication network is no longer a
barrier to exchange more data that
creates more value for the system
●With systems becoming larger, i.e.
beyond a single substation
●Bottlenecks shall be handled at
different levels
●Data reception, especially for Goose
proper handling
●Engineering tools (design & tests) with
lead time increase and probability for
frequent update due to data increase
●System architecture to cope with the
progressive evolutions
Metcalfe’s Law
Goose performance
Schneider Electric 5 - Division - Name – Date
Some learning examples
New Design Phases are Needed
●Design the logical architecture (data flows possibly with multiple protocols) in addition to the physical architecture (list of products communicating over a network)
●Assess the performances (reaction time, dependability) early enough to build the right architecture, including redundancies and proxies
●Anticipate the evolutions (new peer, change of version, etc) to build robust automation algorithm, also enabling the progressive migration from the existing system
Schneider Electric 6 - Division - Name – Date
Some processes and tools evolutions for
the testing efficiency improvement ●Minimize manual engineering all along the
system lifecycle
●Leverage the data semantic through the
execution of rules
●Formalize the requirements at an early stage of
the project
●Virtualize the system before any real
installation and tests
●Enable remote actions
●Set up an Asset Performance Management
System, among other aspects
Topology (SSD)
+
Rules (Electro-technical)
Real-time
measurements
IEC 61850
Off-line
configuration
IEC 61850
Topology (SSD)
+
Rules (Electro-technical)
Real-time
measurements
IEC 61850
Off-line
configuration
IEC 61850
IEDs Local Service Platform
SubstationOneBox
Schneider Electric “Remote Services” PortalSchneider Electric “Remote Services” Portal
Service DeliveryService Management
Customer
Repository
Customer
Repository
Customer /Partner/User
Acquisition
Service Catalog
Management
Customer Support
Ticket Management
Usage tracking &
reporting for invoice
Subscription
Management
SLA Management
Security
Ser vice 1 : RMS Service 2 :
…
Service 3 :
…
ERP
(legacy &
bridge)
ERP
(legacy &
bridge)
SFDCSFDC Cu
sto
mer
Ca
re
Ce
nte
r
Cu
sto
mer
Ca
re
Ce
nte
r
Provisioning, admin
& management
Consumption tracking
& reporting
Device & Asset
registration, conf, mgt
M2M Services
Service Management
Firmware &
Application mgt
Network mgt.
(GPRS, WAN,…)
Remote Monitoring Data
Repository
Remote Monitoring Data
Repository
Service Delivery
Device remote
Connection mgt
Security
Data Polling
Management
QoS &
SLA Monitoring
Data
& e
ven
ts
Device & Asset
Repository
Device & Asset
Repository
KP
I, S
tatu
s,…
Cloud
Infrastructure
Data
Data Abstraction
Data transformation
& mappingSuperv
isio
n
Log &
Au
dit
Data Archiving
UI Framework UI Components Mobile UI
Devic
eD
ata
Remote Services PlatformSchneider Electric “Remote Services” PortalSchneider Electric “Remote Services” Portal
Service DeliveryService Management
Customer
Repository
Customer
Repository
Customer /Partner/User
Acquisition
Service Catalog
Management
Customer Support
Ticket Management
Usage tracking &
reporting for invoice
Subscription
Management
SLA Management
Security
Ser vice 1 : RMS Service 2 :
…
Service 3 :
…
ERP
(legacy &
bridge)
ERP
(legacy &
bridge)
SFDCSFDC Cu
sto
mer
Ca
re
Ce
nte
r
Cu
sto
mer
Ca
re
Ce
nte
r
Provisioning, admin
& management
Consumption tracking
& reporting
Device & Asset
registration, conf, mgt
M2M Services
Service Management
Firmware &
Application mgt
Network mgt.
(GPRS, WAN,…)
Remote Monitoring Data
Repository
Remote Monitoring Data
Repository
Service Delivery
Device remote
Connection mgt
Security
Data Polling
Management
QoS &
SLA Monitoring
Data
& e
ven
ts
Device & Asset
Repository
Device & Asset
Repository
KP
I, S
tatu
s,…
Cloud
Infrastructure
Data
Data Abstraction
Data transformation
& mappingSuperv
isio
n
Log &
Au
dit
Data Archiving
UI Framework UI Components Mobile UI
Devic
eD
ata
Remote Services Platform
CustomerCustomer
Expertise
Center
Expertise
Center
Schneider Electric 7 - Division - Name – Date
Beyond the basic use of IEC 61850
●IEC 61850 has been very much used for its communication services: Goose, Reports, etc. with a lot of focus on servers (i.e. Goose performance)
●The unprecedented engineering chain capabilities (SCD, ICD, etc.) as well as the communication infrastructure (PRP/HSR) have also been discussed
●The full usage of the in-built data model semantic is however often under-utilized
●This is an area bringing value to a true system approach through smart clients
Schneider Electric 8 - Division - Name – Date
What are the Smart Clients
Clients use spatial & temporal rules to create value
out of the data semantic
in order to reduce manual interactions
(and thus cost and non quality –
cf. 30% of manual errors in setting)
Schneider Electric 9 - Division - Name – Date
SLD in paper Pattern identification
SSD file (XML) Topology identification
Automatic Database Filling: pattern recognition
Single Line Diagrams have
always a
graphical representation
(and sometimes an SSD
supplied by modern CAD
tools)
Pattern recognition translates
graphical semantic into logical
node semantic
This is done at device or bay
level
Schneider Electric 10 - Division - Name – Date
Formalize the requirements at an early
stage of the project
As early agreed
features
Traditional
Requirements
Real system
Added features
Missing features
As required
features
Tendering document
Months for 1st system
and/or multi-suppliers
Formal File
Traditional
Requirements
Virtual system
representation:
Logical nodes per virtual
device with interactions &
logic
Explicit Deviation
Identification
Weeks for 1st system
and/or multi-suppliers
Adjust requirements,
check proposed IED a
priori interoperability &
define integration tests
Schneider Electric 11 - Division - Name – Date
Asset Management Applications Examples
Remote access leveraging data semantic
Asset
(CB, IED, etc.)
System
(SAS, Feeder)
Portfolio
(Grid)
Scope
Processes
Information Maintenance Operation Strategy
Documentation
access
Setting remote
storage
Condition
monitoring
IED Version
management
Setting
consistency
check
Reliability
Centered
Maintenance
Spare part
Management
OPEX/CAPEX
simulations
Asset
allocation
optimization
One of the new frontiers – semantic still not fully there
Schneider Electric 12 - Division - Name – Date
Conclusion
●IEC 61850 is a journey enabler for the Opex/Capex
progressive optimization
●The technology plays a key role, and some improvements
are still on-going
●Identifying application roadmaps and revisiting the
processes are equally important