1. © 2006 Open Grid Forum Remote Instrumentation Services in Grid Environment Overview Marcin Płóciennik marcinp@man.poznan.pl Munich, OGF 28 Marcin Płóciennik marcinp@man.poznan.pl Munich, OGF 28

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3. © 2006 Open Grid Forum 3 Outline Remote Instrumentation overview Example research: DORII project RISGE-RG goals RISGE-RG main activities Future plans Open points and questions

4. © 2006 Open Grid Forum 4 Remote Instrumentation What is it? Remote instrumentation is the method of providing data acquisition and/or control of scientific instruments from remote locations. Why we need it? Impact on the science society: to give the possibility to do experimental science using facilities that are extremely rare or unique. This also open lot of opportunities for scientists from developing countries for sharing very expensive laboratory instruments Impact on the education: to give students access to experiments remotely even on other continent. Remote instrumentation can allow on- line courses on specific instruments Impact on the instrument usage: more efficient use of specialized equipment that might otherwise be idle.

5. © 2006 Open Grid Forum 5 Buildings: security, safety Roads and bridges Rural/Developing countries health care Automotive Source: Fuji-Keisei USA, Inc. 8 classes 47 types Market logistics Sensor and Instruments

6. © 2006 Open Grid Forum 6 Instrument taxonomy

7. © 2006 Open Grid Forum 7 Instruments scale Very Large number of Small and Tiny (Sensor Networks) Rapid evolution Wide range of data types Medium scale (like NMRs, etc) Large number of distributed devices Control, access and workflow is complex Small number of very expensive instruments like synchotron Very complex control Lot of demanding requirements

8. © 2006 Open Grid Forum 8 Research in Europe DORII, RINGrid, GRIDCC – mentioned next slides AugerAccess - Integrating Auger Observatory and European Research Institutions into a worldwide Grid. AugerAccess is a project dedicated to improving the access capabilities of European research groups working on the Pierre Auger Observatory(Argentina). Design and development of software with the aim of implementing a system of remote monitoring and control of the data taking from the Auger Observatory. OpenTel - An Open Network for Robotic Telescopes -provides the means for interconnecting single robotic telescopes to a global network for sharing observation time, observation programs and data VLAB - The main goal of the VLab was to create a framework for building many different types of laboratory. Another purpose was defining all accessible remote facilities treated as simple resources in the Grid infrastructure. ARGUGRID – project that deals with instruments like satellites/sensors for earth observation OptIPuter Microscopy – project aiming fully duplexed real time Electron Microscopy control

9. © 2006 Open Grid Forum 9 Grid Enabled Remote Instrumentation with Distributed Control and Computation GRIDCC was a project funded by the EC, aimed to provide access to and control of distributed complex instrumentation. The goal of GRIDCC was to exploit grid opportunities for the secure and collaborative work of distributed teams, in order to remotely operate and monitor scientific equipment using the grid’s massive memory and computing resources for storing and processing data generated by this kind of equipment.

10. © 2006 Open Grid Forum 10 Remote Instrumentation in Next- generation Grids RINGrid provides an architecture which integrates instrumentations with eInfrastructure. It encompasses the current state of the art and near future technology, delivers a conceptual design of missing architectural ‘piece’ and is supported by the Grid environment. Project objectives were: Identification of instruments and user communities, definition of requirements Synergy between remote instrumentation and next-generation high- speed communications networks and grid infrastructures Trend analysis and recommendations for designing next-generation remote instrumentation services Promoting egalitarian access to European e-Infrastructure opportunities Dissemination of project results to scientific and business groups of users

11. © 2006 Open Grid Forum 11 Research in US – example (1) CIMA - The Common Instrument Middleware Architecture - project supported by the NSF Middleware Initiative to integrate instruments and sensors as real-time data sources into grid computing environments through a Service Oriented Architecture Remote Instrumentation Collaboration Environment (RICE) software that has functionalities that facilitate reliable and efficient remote instrumentation such as network health awareness to detect network bottleneck periods, and collaboration tools for multiple participants to interact during research and training sessions. Gemini Observatory that is an initiative that uses Internet2 to allow remote users to manipulate their twin telescopes

12. © 2006 Open Grid Forum 12 NanoManipulator that uses Internet2 to allow remote control and visualization of images from their scanning probe microscopes. NORIA - The cyberinfrastructure that transport real-time data streams at up to one gigabit per second from a variety of ocean- dwelling sensors and other instruments. Two-way connectivity allow scientists to operate robots on the ocean floor interactively—from the relative comfort of their campus laboratories. Observatory Middleware Framework - This project build a working prototype of an Observatory Middleware Framework, designed and implemented to scale to a national or international level and interoperate with other large environmental observatories. It provide a new framework and techniques to access and process both raw and derived data streams from multiple observatories independent of their specific technological implementation. Research in US – example (2)

13. © 2006 Open Grid Forum 13 Other research Canada – SpectroGrid - software system based on open-source technologies, which was implemented to provide secure access to remote Nuclear Magnetic Resonance (NMR) spectroscopy instruments Japan – research done in National Institute of Materials Science, where remote instrumentation is being put into practice and available to the high school education programs Australia – University of Sydney - extensions to CIMA - development of instrument control via CIMA

14. © 2006 Open Grid Forum 14

15. © 2006 Open Grid Forum 15 DORII - introduction DORII - Deployment of Remote Instrumentation Infrastructure EU FP7 project (RI-213110), Research Infrastructures, in the call of th INFRA-2007-1.2.2 – „Deployment of e- Infrastructures for scientific communities” Project started in February 2008 and is planned for 30 months Combination of Collaborative projects & Coordination and support action Partners: IT providers, scientific comunities, SME

16. © 2006 Open Grid Forum 16 DORII – scientific communities Earthquake community: Network-centric seismic simulations Earthquake early warning system Environment community with selected applications: Oceanographic and coastal observation and modelling Mediterranean Ocean Observing Network Oceanographic and coastal observation and modelling using imaging Experimental science community On-line data analysis - synchrotron and free electron lasers Reference installation mentioned by ESFRI

17. © 2006 Open Grid Forum 17 Earthquake Community

18. © 2006 Open Grid Forum 18 250 - 500 m 200 m 10- 20 cm/s 20- 40 cm/s Glider: Data sampling and ground transmission

19. © 2006 Open Grid Forum 19 Experimental Science: SRF

20. © 2006 Open Grid Forum 20 DORII Architecture Introduced new components on top of existing software stacks Major features: Hardware virtualisation(makes the approach general, allows fast prototyping) Workflow composition( automate the process of monitoring and controling Interaction (quasi real-time control of the instruments)

21. © 2006 Open Grid Forum 21 OGF RISGE-RG Open Grid Forum Remote Instrumentation Services in Grid Environment Research Group

22. © 2006 Open Grid Forum 22 The main purpose of this research group is to bring together various existing approaches in defining remote access interfaces to sophisticated laboratory equipment, to come up with use cases that can dictate the requirements for integrating scientific instruments with the Grid to identify the gaps in available standards related to remote instrumentation integrated with Grid and to establish new Working Groups to standardize the relevant capabilities Our Research Group Main Goal

23. © 2006 Open Grid Forum 23 Research Group aims To see what activities are done worldwide To profit from other research To promote own solutions To find out the gaps in current soultions To formulate the needs for standards in the area where it is needed To establish new Working Groups to standardize the relevant capabilities

24. © 2006 Open Grid Forum 24 Facts Chairs – Duane Edgington, Marcin Plociennik Secretary – Michael Sutter Mailing list: risge-rg@ogf.org Over 90 members GridForge project webspace 26 members Short abstract/links/contacts for each project/research should be provided on wiki Best practises presentations Address: http://forge.ogf.org/sf/projects/risge-rghttp://forge.ogf.org/sf/projects/risge-rg Activity started during OGF 20

25. © 2006 Open Grid Forum 25 Involved communities – overview Representatives of: Remote Instrumentation related user communities (like DORII, AUGERACCESS,NORIA) Remote Instrumentation focused projects (like GRIDCC, RINGrid,VLab, Observatory Middleware Framework, CIMA, Observatory Middleware Framework ) Grid middleware projects (like g-eclipse) Grid infrastructure projects (like int.eu.grid, BalticGrid, EGEE) Geographically: Europe, North America, Australia

26. © 2006 Open Grid Forum 26 Involed projects GRIDCC (http://www.gridcc.org),http://www.gridcc.org RINGrid (http://www.ringrid.eu),http://www.ringrid.eu int.eu.grid (http://www.interactive-grid.eu),http://www.interactive-grid.eu g-Eclipse(http://www.geclipse.org),http://www.geclipse.org AUGERACCESS(http://www.augeraccess.net),http://www.augeraccess.net VLab(http://vlab.psnc.pl),http://vlab.psnc.pl Edutain@Grid (http://www.edutaingrid.eu)http://www.edutaingrid.eu Integrated e-Infrastructure for Facilities (http://www.e- science.stfc.ac.uk/facilities/),http://www.e- science.stfc.ac.uk/facilities/ SENSORS (http://www.mbari.org/rd/sensors/sensors.htm, http://www.mbari.org/rd/sensors/2004workshop.htm),http://www.mbari.org/rd/sensors/sensors.htm http://www.mbari.org/rd/sensors/2004workshop.htm OOI-CI (http://ci.oceanobservatories.org/ ),http://ci.oceanobservatories.org/ OMF(http://security.ncsa.uiuc.edu/wiki/Observatory_Middleware_Framewo rk_(OMF)http://security.ncsa.uiuc.edu/wiki/Observatory_Middleware_Framewo rk_(OMF DORII (http://www.dorii.eu),http://www.dorii.eu BalticGrid-II (www.balticgrid.eu),www.balticgrid.eu ARGUGRID, SpectroGrid, CIMA

27. © 2006 Open Grid Forum 27 RISGE-RG main activities We have released the document describing use cases We have defined and start to work on 8 field of possible standardisation activities: Accessing instruments in a standard way/unique interface Data handling – getting data out of the instruments Near real time/fast data retrieval and transfer of data / streams Service Discovery Information Way of monitoring Instruments Accounting for instruments (and billing?) Scheduling of the instruments Calibration (travelling standards) Basing on the result of current research of the group towards existing standards and possible extensions or implementation of new standards the group will take into account possibility of establishing new WG to standardize the relevant capabilities.

28. © 2006 Open Grid Forum 28 Accessing instruments in a standard way/unique interface – analisys results The evaluation result show the necessity of establishing new standard to cover all requirements Tomorrow - BoF - Access to Remote Instrumentation in Grid environment focus its efforts on defining concrete services for accessing remote instruments. to standardize approaches in defining remote access interfaces to instruments including sophisticated laboratory equipment (different scale instruments), but also distributed sensor networks,. to simplify implementations (so to have one standard covering different aspect ) Still to be defined but as such, it concerns mostly the services for steering and monitoring instrument resources, granting security and authorization (policy) (based on grid security/sharing instruments), accessing combined or multiple devices, performing a calibration phase(so management part), and also services for acquiring data from instruments and operating on files and streams

29. © 2006 Open Grid Forum 29 Open points and questions During the evaluation of the field of possible standardisation activities we found out many commonalities and field covered already by OGC like: Service discovery Scheduling of instrument accessing sensors (OGC – SensorML, SWE/SOS ) During next evaluations that is in progress could we count on OGC expertise?

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