eclipse neoscada 0.3
TRANSCRIPT
Eclipse NeoSCADA™ 0.3
An overview2016-08-03
A little bit of background ...
© 2016 by Jürgen Rose. This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.
What is SCADA?
SCADA (Supervisory Control and Data Acquisition) is defined as
the monitoring and control of technichal processes by means of a computer system
(translated definition from German wikipedia)
© 2016 by Jürgen Rose. This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.
What is SCADA?
© 2016 by Jürgen Rose. This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.
What is Eclipse NeoSCADA?
■ In short: Eclipse NeoSCADA is an implementation of a SCADA system based on the Java platform
■ an open source SCADA platform■ protocol implementations, server components, client
libraries, …
■ some utility projects■ tooling
■ ESAC, configurator, ...
© 2016 by Jürgen Rose. This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.
Eclipse NeoSCADA – Goals
■ to provide a comprehensive, state of the art SCADA system, built on modern technologies and open to interface with as many other systems as possible
■ allow easy integration between hardware (field devices) and business applications (e.g. ERP)
Featuresa high level overview
© 2016 by Jürgen Rose. This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.
Features
■ Data Acquisition (DA)■ Alarms & Events (AE)■ Historical Data (HD)■ Configuration (CA)■ GUI/HMI (VI)
© 2016 by Jürgen Rose. This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.
Features
■ Data Acqusition (DA)■ deals with »real-time« (not hard real-time!) data■ handles single scalar values
■ Alarms & Events (AE)■ handles process alarms, operator actions, responses
generated by the system, informational messages, auditing messages
© 2016 by Jürgen Rose. This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.
Features
■ Historical Data (HD)■ deals with recording values (provided by DA) and
archiving these for later retrieval
■ Configuration (CA)■ handles creation of configurations for the server
components, reconfiguration of the running system
■ GUI/HMI (VI)■ provides GUI components, based on Draw2D
© 2016 by Jürgen Rose. This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.
Features
■ central to all functions: DA (Data Access)■ all other functionality is based on the values
provided by it
Data Acquisition
© 2016 by Jürgen Rose. This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.
Supported Protocols I
■ Modbus■ Siemens S7■ “exec” (shell script execution)■ JDBC■ REST■ MQTT■ A custom Arduino UDP protocol
© 2016 by Jürgen Rose. This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.
Supported Protocols II (through openSCADA)
■ OPC DA 2.0 (Utgard; can't be included with Eclipse NeoSCADA because of licensing issues)
■ IEC 60870-5-104 (will be reintegrated with Eclipse NeoSCADA in release 0.4 or 0.5)
■ SNMP
© 2016 by Jürgen Rose. This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.
Supported Protocols III (export)
■ Modbus■ IEC 60870-5-104 (through openSCADA)■ MQTT■ REST
© 2016 by Jürgen Rose. This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.
The path of a value from sensor to HMI
■ Modbus Driver (DA server interface)■ Master Server (DA client + DA server interface)■ GUI (DA client interface)
Pyranometer
Anemometer
Thermometer
Datalogger
calibrated temperatureregister: 32001
calibrated solar radiation
register:32003
calibrated wind velocityregister:32005
current
voltage
voltageEclipse SCADAmodbus drivermodbus
DataItemregister: 32001
→meteo.temperature
DataItemregister:32003 →meteo.glbsolrad
DataItemregister: 32005
→ meteo.windvelocity
openSCADAmaster server
DataItemDataSourcemeteo.temperature
→MY.NS.MET.001.M8030.V.source
DataItemDataSourcemeteo.glbsolrad
→ MY.NS.MET.001.M8031.V.source
DataItemDataSourcemeteo.windvelocity
→MY.NS.MET.001.M8032.V.source
da:ngp
MasterItemMY.NS.MET.001.M8030.V.source → MY.NS.MET.001.M8030.V.master
MasterItemMY.NS.MET.001.M8031.V.source →MY.NS.MET.001.M8031.V.master
MasterItem MY.NS.MET.001.M8032.V.source → MY.NS.MET.001.M8032.V.master
DataSourceDataItemMY.NS.MET.001.M8030.V.master
→ MY.NS.MET.001.M8030.V
DataSourceDataItemMY.NS.MET.001.M8031.V.master
→ MY.NS.MET.001.M8031.V
DataSourceDataItemMY.NS.MET.001.M8032.V.master
→MY.NS.MET.001.M8032.V
da:ngp Client
DataItemMY.NS.MET.001.M8030.V
DataItemMY.NS.MET.001.M8031.V
DataItemMY.NS.MET.001.M8032.V
MasterItem MY.NS.MET.001.M8032.V.source
→MY.NS.MET.001.M8032.V.master
Scal
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Bloc
k
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mar
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LevelMonitor MY.NS.MET.001.M8032.V.master.monitor.level.hh→
LevelMonitor MY.NS.MET.001.M8032.V.master.monitor.level.ll→
LevelMonitor MY.NS.MET.001.M8032.V.master.monitor.level. ...→
BitMonitor MY.NS.MET.001.M8032.V.master.monitor.bit→
ListMonitor MY.NS.MET.001.M8032.V.master.monitor.list→
ScriptMonitor MY.NS.MET.001.M8032.V.master.monitor.script→
MasterItem Handlersprovide additional functionality to wrapped item
Monitorsoperate on DataSources, creating alarms & events
Sensors Field Device Driver Master Server GUI
Dev
ice
spec
ific
prot
ocol
Eclip
se S
CAD
A p
roto
col
Eclip
se S
CAD
A p
roto
col
© 2016 by Jürgen Rose. This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.
The path of a value from sensor to HMI
■ A Driver talks to the field device in the protocol it understands (for instance: Modbus) and converts it to the Eclipse SCADA internal protocol “ngp”
■ A driver usually runs in its own process to allow a independent restart if something goes wrong
Pyranometer
Anemometer
Thermometer
Datalogger
calibrated temperatureregister: 32001
calibrated solar radiation
register:32003
calibrated wind velocityregister:32005
current
voltage
voltageEclipse SCADAmodbus drivermodbus
DataItemregister: 32001
→ meteo.temperature
DataItemregister:32003 → meteo.glbsolrad
DataItemregister: 32005
→ meteo.windvelocity
openSCADAmaster server
DataItemDataSourcemeteo.temperature
→ MY.NS.MET.001.M8030.V.source
DataItemDataSourcemeteo.glbsolrad
→ MY.NS.MET.001.M8031.V.source
DataItemDataSourcemeteo.windvelocity
→ MY.NS.MET.001.M8032.V.source
da:ngp
MasterItemMY.NS.MET.001.M8030.V.source → MY.NS.MET.001.M8030.V.master
MasterItemMY.NS.MET.001.M8031.V.source → MY.NS.MET.001.M8031.V.master
MasterItem MY.NS.MET.001.M8032.V.source → MY.NS.MET.001.M8032.V.master
DataSourceDataItemMY.NS.MET.001.M8030.V.master
→ MY.NS.MET.001.M8030.V
DataSourceDataItemMY.NS.MET.001.M8031.V.master
→ MY.NS.MET.001.M8031.V
DataSourceDataItemMY.NS.MET.001.M8032.V.master
→ MY.NS.MET.001.M8032.V
da:ngp Client
DataItemMY.NS.MET.001.M8030.V
DataItemMY.NS.MET.001.M8031.V
DataItemMY.NS.MET.001.M8032.V
MasterItem MY.NS.MET.001.M8032.V.source
→ MY.NS.MET.001.M8032.V.master
Scal
ing
Man
ual O
verr
ide
Bloc
k
Scal
ing
Neg
ate
Mar
kers
Scal
ing
Scal
e
Roun
d
Sum
mar
y
LevelMonitor MY.NS.MET.001.M8032.V.master.monitor.level.hh→
LevelMonitor MY.NS.MET.001.M8032.V.master.monitor.level.ll→
LevelMonitor MY.NS.MET.001.M8032.V.master.monitor.level. ...→
BitMonitor MY.NS.MET.001.M8032.V.master.monitor.bit→
ListMonitor MY.NS.MET.001.M8032.V.master.monitor.list→
ScriptMonitor MY.NS.MET.001.M8032.V.master.monitor.script→
MasterItem Handlersprovide additional functionality to wrapped item
Monitorsoperate on DataSources, creating alarms & events
Sensors Field Device Driver Master Server GUI
Dev
ice
spec
ific
prot
ocol
Eclip
se S
CAD
A p
roto
col
Eclip
se S
CAD
A p
roto
col
© 2016 by Jürgen Rose. This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.
The path of a value from sensor to HMI
■ The master server uses ngp to communicate with the driver■ Within the master server the items are enriched with
additional functionality■ The items are then exported via ngp again
Pyranometer
Anemometer
Thermometer
Datalogger
calibrated temperatureregister: 32001
calibrated solar radiation
register:32003
calibrated wind velocityregister:32005
current
voltage
voltageEclipse SCADAmodbus driver
modbus
DataItemregister: 32001
→ meteo.temperature
DataItemregister:32003 →meteo.glbsolrad
DataItemregister: 32005
→ meteo.windvelocity
openSCADAmaster server
DataItemDataSourcemeteo.temperature
→ MY.NS.MET.001.M8030.V.source
DataItemDataSourcemeteo.glbsolrad
→MY.NS.MET.001.M8031.V.source
DataItemDataSourcemeteo.windvelocity
→MY.NS.MET.001.M8032.V.source
da:ngp
MasterItemMY.NS.MET.001.M8030.V.source →MY.NS.MET.001.M8030.V.master
MasterItemMY.NS.MET.001.M8031.V.source →MY.NS.MET.001.M8031.V.master
MasterItem MY.NS.MET.001.M8032.V.source → MY.NS.MET.001.M8032.V.master
DataSourceDataItemMY.NS.MET.001.M8030.V.master
→ MY.NS.MET.001.M8030.V
DataSourceDataItemMY.NS.MET.001.M8031.V.master
→MY.NS.MET.001.M8031.V
DataSourceDataItemMY.NS.MET.001.M8032.V.master
→MY.NS.MET.001.M8032.V
da:ngp Client
DataItemMY.NS.MET.001.M8030.V
DataItemMY.NS.MET.001.M8031.V
DataItemMY.NS.MET.001.M8032.V
MasterItem MY.NS.MET.001.M8032.V.source
→ MY.NS.MET.001.M8032.V.master
Scal
ing
Man
ual O
verr
ide
Bloc
k
Scal
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Neg
ate
Mar
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Scal
ing
Scal
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Roun
d
Sum
mar
y
LevelMonitor MY.NS.MET.001.M8032.V.master.monitor.level.hh→
LevelMonitor MY.NS.MET.001.M8032.V.master.monitor.level.ll→
LevelMonitor MY.NS.MET.001.M8032.V.master.monitor.level. ...→
BitMonitor MY.NS.MET.001.M8032.V.master.monitor.bit→
ListMonitor MY.NS.MET.001.M8032.V.master.monitor.list→
ScriptMonitor MY.NS.MET.001.M8032.V.master.monitor.script→
MasterItem Handlersprovide additional functionality to wrapped item
Monitorsoperate on DataSources, creating alarms & events
Sensors Field Device Driver Master Server GUI
Dev
ice
spec
ific
prot
ocol
Eclip
se S
CAD
A p
roto
col
Eclip
se S
CAD
A p
roto
col
© 2016 by Jürgen Rose. This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.
The path of a value from sensor to HMI
■ Any client connects via ngp to the master server and gets notified about any change in the value
Pyranometer
Anemometer
Thermometer
Datalogger
calibrated temperatureregister: 32001
calibrated solar radiation
register:32003
calibrated wind velocityregister:32005
current
voltage
voltageEclipse SCADAmodbus driver
modbus
DataItemregister: 32001
→ meteo.temperature
DataItemregister:32003 → meteo.glbsolrad
DataItemregister: 32005
→ meteo.windvelocity
openSCADAmaster server
DataItemDataSourcemeteo.temperature
→ MY.NS.MET.001.M8030.V.source
DataItemDataSourcemeteo.glbsolrad
→ MY.NS.MET.001.M8031.V.source
DataItemDataSourcemeteo.windvelocity
→ MY.NS.MET.001.M8032.V.source
da:ngp
MasterItemMY.NS.MET.001.M8030.V.source → MY.NS.MET.001.M8030.V.master
MasterItemMY.NS.MET.001.M8031.V.source → MY.NS.MET.001.M8031.V.master
MasterItem MY.NS.MET.001.M8032.V.source → MY.NS.MET.001.M8032.V.master
DataSourceDataItemMY.NS.MET.001.M8030.V.master
→ MY.NS.MET.001.M8030.V
DataSourceDataItemMY.NS.MET.001.M8031.V.master
→ MY.NS.MET.001.M8031.V
DataSourceDataItemMY.NS.MET.001.M8032.V.master
→ MY.NS.MET.001.M8032.V
da:ngp Client
DataItemMY.NS.MET.001.M8030.V
DataItemMY.NS.MET.001.M8031.V
DataItemMY.NS.MET.001.M8032.V
MasterItem MY.NS.MET.001.M8032.V.source
→ MY.NS.MET.001.M8032.V.master
Scal
ing
Man
ual O
verr
ide
Bloc
k
Scal
ing
Neg
ate
Mar
kers
Scal
ing
Scal
e
Roun
d
Sum
mar
y
LevelMonitor MY.NS.MET.001.M8032.V.master.monitor.level.hh→
LevelMonitor MY.NS.MET.001.M8032.V.master.monitor.level.ll→
LevelMonitor MY.NS.MET.001.M8032.V.master.monitor.level. ...→
BitMonitor MY.NS.MET.001.M8032.V.master.monitor.bit→
ListMonitor MY.NS.MET.001.M8032.V.master.monitor.list→
ScriptMonitor MY.NS.MET.001.M8032.V.master.monitor.script→
MasterItem Handlersprovide additional functionality to wrapped item
Monitorsoperate on DataSources, creating alarms & events
Sensors Field Device Driver Master Server GUI
Dev
ice
spec
ific
prot
ocol
Eclip
se S
CAD
A p
roto
col
Eclip
se S
CAD
A p
roto
col
© 2016 by Jürgen Rose. This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.
The Eclipse NeoSCADA Administration Client
the admin client (ESAC) – a generic client to browse
and watch live values(in driver or master server)
© 2016 by Jürgen Rose. This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.
a da:ngp connection
Item Value
Attributes
Alarms & Events
© 2016 by Jürgen Rose. This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.
Alarms & Events (AE)
■ Alarms are realized through a state machine, we call it “monitor”■ Only current state
■ State change (might create) Event→■ States:
■ OK NOT_OK + (ACK required / ACK not required)↔
■ Base Priorities:■ OK, WARN, ALARM
■ Demotion:■ ALARM WARN→
© 2016 by Jürgen Rose. This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.
Alarms & Events (AE)
■ Monitor Implementations:■ Level Monitor (Min, LL, L, H, HH, Max), as local and
remote variant■ Bit Monitor■ List Monitor■ Script Monitor
© 2016 by Jürgen Rose. This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.
Alarms & Events (AE)
■ Alarms (Monitor states) are transient■ Events are stored permanently (in SQL Database)■ Event has some common properties, and any
number of custom ones■ Events are held in configurable buffer (pool) to
supply client immediately with latest ones■ Past events can be queried using simple ldap like
syntax
© 2016 by Jürgen Rose. This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.
Alarms & Events (AE)Pyranometer
Anemometer
Thermometer
Datalogger
calibrated temperatureregister: 32001
calibrated solar radiation
register:32003
calibrated wind velocityregister:32005
current
voltage
voltageEclipse SCADAmodbus driver
modbus
DataItemregister: 32001
→ meteo.temperature
DataItemregister:32003 → meteo.glbsolrad
DataItemregister: 32005
→ meteo.windvelocity
openSCADAmaster server
DataItemDataSourcemeteo.temperature
→ MY.NS.MET.001.M8030.V.source
DataItemDataSourcemeteo.glbsolrad
→ MY.NS.MET.001.M8031.V.source
DataItemDataSourcemeteo.windvelocity
→ MY.NS.MET.001.M8032.V.source
da:ngp
MasterItemMY.NS.MET.001.M8030.V.source → MY.NS.MET.001.M8030.V.master
MasterItemMY.NS.MET.001.M8031.V.source → MY.NS.MET.001.M8031.V.master
MasterItem MY.NS.MET.001.M8032.V.source → MY.NS.MET.001.M8032.V.master
DataSourceDataItemMY.NS.MET.001.M8030.V.master
→ MY.NS.MET.001.M8030.V
DataSourceDataItemMY.NS.MET.001.M8031.V.master
→ MY.NS.MET.001.M8031.V
DataSourceDataItemMY.NS.MET.001.M8032.V.master
→ MY.NS.MET.001.M8032.V
da:ngp Client
DataItemMY.NS.MET.001.M8030.V
DataItemMY.NS.MET.001.M8031.V
DataItemMY.NS.MET.001.M8032.V
MasterItem MY.NS.MET.001.M8032.V.source
→ MY.NS.MET.001.M8032.V.master
Scal
ing
Man
ual O
verr
ide
Bloc
k
Scal
ing
Neg
ate
Mar
kers
Scal
ing
Scal
e
Roun
d
Sum
mar
y
LevelMonitor MY.NS.MET.001.M8032.V.master.monitor.level.hh→
LevelMonitor MY.NS.MET.001.M8032.V.master.monitor.level.ll→
LevelMonitor MY.NS.MET.001.M8032.V.master.monitor.level. ...→
BitMonitor MY.NS.MET.001.M8032.V.master.monitor.bit→
ListMonitor MY.NS.MET.001.M8032.V.master.monitor.list→
ScriptMonitor MY.NS.MET.001.M8032.V.master.monitor.script→
MasterItem Handlersprovide additional functionality to wrapped item
Monitorsoperate on DataSources, creating alarms & events
Sensors Field Device Driver Master Server GUI
Dev
ice
spec
ific
prot
ocol
Eclip
se S
CAD
A p
roto
col
Eclip
se S
CAD
A p
roto
col
Historical Data
© 2016 by Jürgen Rose. This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.
Eclipse NeoSCADA – Historical Data (HD)
■ Update on live values■ Storage abstracted■ At the moment a file system based storage is
available■ Can keep actual values, without interpolation,
for some time■ Comprehension after defined timespan
© 2016 by Jürgen Rose. This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.
Visual Interface
© 2016 by Jürgen Rose. This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.
Visual Interface
■ Declarative UI using EMF■ Scriptable with Javascript■ Only a few entry points to remember
(onUpdate, onInit, …)■ Component based Symbol editing■ Properties are propagated to the innermost
element■ Simple but very flexible
© 2016 by Jürgen Rose. This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.
© 2016 by Jürgen Rose. This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.
© 2016 by Jürgen Rose. This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.
Visual Interface
■ Wizard which creates a skeleton project including maven pom file for easy build
Configuration & Deployment
© 2016 by Jürgen Rose. This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.
Configuration & Deployment
■ Configuration framework based on EMF■ Split between infrastructure model (nodes and services)
and component model (hierarchical representation for the end user)
■ Configuration can be updated at runtime■ Creation and deployment is separated■ ESAC used for updating the configuration
■ Configuration changes can be minimized through applying only diff!
© 2016 by Jürgen Rose. This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.
Configuration & Deployment
■ Create complete installable packages from IDE■ Debian packages for Debian & Derivates■ RPM packages for Redhat and SuSE■ MSI files for Windows
■ Allows start of SCADA servers from IDE
© 2016 by Jürgen Rose. This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.
Other interesting features
© 2016 by Jürgen Rose. This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.
Other Interesting Features
■ Support of cryptographically signed user actions (e.g. acknowledgement, setting manual values, etc) using a PKI■ Also supports user elevation
Q&A
© 2016 by Jürgen Rose. This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.
FAQ
■ Do you have a web interface?■ We don't have a standard solution for a web interface yet.
Our HMIs are based on Eclipse RCP
■ Do you have support for OPC UA/IEC 62541?■ Not yet, but the Eclipse Milo Project provides that
functionality and it is planned to be integrated in 0.5
■ Why don't you use MQTT natively?■ A couple of features we support just can't be realized with
MQTT (e.g. our callback functionality)
A short History
© 2016 by Jürgen Rose. This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.
A short History
■ started 2006 as openSCADA■ main emphasis: connectivity to legacy
hardware■ after that more and more functionality added■ since then, most used part of the project by
developers: Utgard library, a platform agnostic library to access OPC DA 2.0 servers■ (not part of Eclipse NeoSCADA!)
© 2016 by Jürgen Rose. This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.
A short History
■ June 2013■ Eclipse SCADA proposed (based on openSCADA)
■ Juli 2013■ IBH SYSTEMS GmbH becomes Eclipse foundation
member
■ September 2013■ officially incubator project
© 2016 by Jürgen Rose. This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.
A short History
■ April 2014■ First official release 0.1.0■ Finale of migration■ Configuration
■ January 2015■ 0.2.0 release■ Much improved tooling (preview, servers within IDE)
■
© 2016 by Jürgen Rose. This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.
A short History
■ April 2016■ 0.3.0 released■ Officially renamed to Eclipse NeoSCADA■ Mostly small improvements in different areas
■ Improved REST API■ Upgrade to Eclipse Mars■ systemd Support■ Dynamic Configuration through filesystem watcher■ Memory/Performance Improvements in HMI
Roadmap
© 2016 by Jürgen Rose. This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.
Eclipse NeoSCADA Roadmap
■ Planned: from now on really do two releasesper year
■ 0.4 (3th quarter of 2016)■ Move to Eclipse Neon & Java 8
■ 0.5 (1rd quarter of 2017)■ Integrate Eclipse Milo (OPC UA)■ Move IEC 60870-5-104 implementation from
openSCADA to Eclipse
Thank you for your attention!
Glossary
© 2016 by Jürgen Rose. This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.
Glossary
■ Driver (DA)■ a protocol adapter, converts device specific protocol
(for instance modbus) into the Eclipse NeoSCADA protocol(s) (for instance ngp)
■ Tag, Item, Data Point, DataItem■ a singular scalar value provided by a device or
server, identified by a name
© 2016 by Jürgen Rose. This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.
Glossary
■ Field Device■ controls local operations such as opening and closing
valves and breakers, collecting data from sensor systems (for instance a data logger or a PLC), speaks some protocol
■ Master Server (DA, AE, [HD])■ central server component, provides additional
functionality based on DataItems such as alarm →generation
Grants
© 2016 by Jürgen Rose. This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.
Eclipse NeoSCADA – research & development
■ Some of the development of Eclipse NeoSCADA was supported through a funding program by the Bavarian government
■ http://www.vdivde-it.de/projekte/foerderprogramm-informations-und-kommunikationstechnik-bayern
Support
© 2016 by Jürgen Rose. This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.
Eclipse NeoSCADA – support through:
■ IBH SYSTEMS GmbHAgnes-Pockels-Bogen 180992 München
■ T: +49.89.189 17 49 0F: +49.89.189 17 49 [email protected]://ibh-systems.com
Credits
© 2016 by Jürgen Rose. This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.
Credits
■ All company/product names and service marks may be trademarks or registered trademarks of their respective companies
■ Trierites, »Nuclear Ship Savannah Nuclear Reactor Control Room Center and Left Panels« May 19, 2012 via , Wikimedia Commons, Creative Commons Attribution.
■ Stefan Kühn, »Schalenkreuzanemometer« May 13, 2004 via Wikimedia Commons, Creative Commons Attribution.
■ Lumos3, »A Maximum Minimum thermometer« March 20, 2006 via Wikimedia Commons, Creative Commons Attribution.
■ Avisaro AG, »Data logger Cube storing technical and sensor data« June 10, 2010 via Wikimedia Commons, Creative Commons Attribution.
■ Arne Nordmann, » Illustration of a wind turbine.« February, 2007 via Wikimedia Commons, Creative Commons Attribution.
■ RRZEicons »user, expert, workstation«, November 17, 2009 via Wikimedia Commons, Creative Commons Attribution.
■ Harbin »BlankMap-World-v2.svg«, February 26, 2011 via Wikimedia Commons, Creative Commons Attribution.