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Development of Accelerator Management Systems with GIS

Development of Accelerator Management Systems with GIS

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Development of Accelerator Management Systems with GIS

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  1. A.Yamashita and Y.Ishizawa SPring-8 Japan International Conference on Accelerator and Large Experimental Physics Control Systems ICALEPCS 2007 Oct. 17 2007 Knoxville, TN USA Development of Accelerator Management Systems with GIS

  2. Outline • What is GIS? • Requirements to GIS for SPring-8 • MapServer framework • How it works. • Two systems on MapServer. • Equipment location manager • Real-time alarm Display • Conclusion

  3. What is GIS?

  4. From Wikipedia Geographic Information System (GIS) is a system for creating, storing, analysing and managing spatial data and associated attributes.

  5. From Wikipedia Geographic Information System (GIS) is a system for creating, storing, analysing and managing spatial data and associated attributes.

  6. From Wikipedia Geographic Information System (GIS) is a system for creating, storing, analysing and managing spatial data and associated attributes.

  7. From Wikipedia Geographic Information System (GIS) is a system for creating, storing, analysing and managing spatial data and associated attributes.

  8. From Wikipedia Geographic Information System (GIS) is a system for creating, storing, analysing and managing spatial data and associated attributes.

  9. From Wikipedia Geographic Information System (GIS) is a system for creating, storing, analysing and managing spatial data and associated attributes.

  10. Simply say

  11. We wanted Googlemap for SPring-8.

  12. SPring-8 • 4+1 acclererator complex • Injector linac • Injector synchrotron • 8GeV Storage ring. • 1.5GeV NewSUBARU + • SCSS test accelerator • New X-FEL - under construction • 266VME CPUs • 87 PLC's • Distributed in 1kmx1km area.

  13. SPring-8 • 4+1 acclererator complex • Injector linac • Injector synchrotron • 8GeV Storage ring. • 1.5GeV NewSUBARU + • SCSS test accelerator • New X-FEL - under construction • 266VME CPUs • 87 PLC's • Distributed in 1kmx1km area.

  14. SPring-8 • 4+1 acclererator complex • Injector linac • Injector synchrotron • 8GeV Storage ring. • 1.5GeV NewSUBARU + • SCSS test accelerator • New X-FEL - under construction • 266VME CPUs • 87 PLC's • Distributed in 1kmx1km area.

  15. SPring-8 • 4+1 acclererator complex • Injector linac • Injector synchrotron • 8GeV Storage ring. • 1.5GeV NewSUBARU + • SCSS test accelerator • New X-FEL - under construction • 266VME CPUs • 87 PLC's • Distributed in 1kmx1km area.

  16. SPring-8 • 4+1 acclererator complex • Injector linac • Injector synchrotron • 8GeV Storage ring. • 1.5GeV NewSUBARU + • SCSS test accelerator • New X-FEL - under construction • 266VME CPUs • 87 PLC's • Distributed in 1kmx1km area.

  17. SPring-8 • 4+1 acclererator complex • Injector linac • Injector synchrotron • 8GeV Storage ring. • 1.5GeV NewSUBARU + • SCSS test accelerator • New X-FEL - under construction • 266VME CPUs • 87 PLC's • Distributed in 1kmx1km area.

  18. SPring-8 • 4+1 acclererator complex • Injector linac • Injector synchrotron • 8GeV Storage ring. • 1.5GeV NewSUBARU + • SCSS test accelerator • New X-FEL - under construction • 266VME CPUs • 87 PLC's • Distributed in 1kmx1km area.

  19. SPring-8 • 4+1 acclererator complex • Injector linac • Injector synchrotron • 8GeV Storage ring. • 1.5GeV NewSUBARU + • SCSS test accelerator • New X-FEL - under construction • 266VME CPUs • 87 PLC's • Distributed in 1kmx1km area.

  20. SPring-8 • 4+1 acclererator complex • Injector linac • Injector synchrotron • 8GeV Storage ring. • 1.5GeV NewSUBARU + • SCSS test accelerator • New X-FEL - under construction • 266VME CPUs • 87 PLCs • Distributed in 1kmx1km area.

  21. SPring-8 • 4+1 acclererator complex • Injector linac • Injector synchrotron • 8GeV Storage ring. • 1.5GeV NewSUBARU + • SCSS test accelerator • New X-FEL - under construction • 266VME CPUs • 87 PLC's • Distributed in 1kmx1km area.

  22. ICALEPCS 2005 • Evaluating the Potential of Commercial GIS for Accelerator Configuration ManagementT. Larrieu, Y. Roblin, K. White, R. SlominskiJefferson Lab, USA

  23. We developed.

  24. Systems using GIS • Equipment management linked to their location • Information integration with map. • Drawings • Maintenance history • Photos • ... • Access form web map. • Real-time alarm display. • X-FEL property management system • Under construction

  25. Requirements • Google map like interface - Of course! • Zooming,panning,multi-layer • Web-based • No client application installation. • Access from everywhere. • Open source framework • Not from scratch. • Database cooperation.

  26. MapServer • De facto standard of open source Web based map system framework. • Developed at University of Minnesota. • http://mapserver.gis.umn.edu/ • Originally developed for forest resource management.

  27. MapServer • Open source. • Developed in C. • Multi data sources. • CAD data, image data, databases... • Multi platform • Unix, Windows and Macintosh • Multi front-end development languages • Web application using PHP ,perl ,java ,python,.NET

  28. MapServer • Lack of many functions comparing to commercial GIS. • But • It is enough for our applications.

  29. Two books on MapServer

  30. How MapServer works.

  31. http server Web application frontend‏ map server MapFile Vector data database xml datafile Raster data Send http request HTTP request

  32. http server Web application front-end‏ map server MapFile Vector data database xml datafile Raster data Http server calls MapServer as cgi script

  33. http server Web application frontend‏ map server map file Vector data database xml datafile Raster data MapServer integrates data with Mapfile

  34. http server Web application front-end‏ map server MapFile Vector data database xml datafile Raster data Generates a temporary image file

  35. Output formats • GIF • JPEG • PNG • GDAL • GML • Flash • PDF

  36. MapFile

  37. http server Web application frontend‏ map server MapFile Vector data database xml datafile Raster data MapFile

  38. MapFile • Configuration file • Text file format • Integrates data files and databases • Defines location of data in the map • Image size • Layer • Font • Color • etc.

  39. Data sources • Vector data • Shape file • CAD data ( .dxf file converted shape file)‏ • Database • PostgreSQL,Oracle • Raster data • jpg,png,gif,GDAL,OGR • Remote WMS layers • Information • Gxml (geographic XML)‏

  40. Web application frontend

  41. http server Web application frontend‏ map server MapFile Vector data database xml datafile Raster data Web application frontrnd

  42. APIs • Python • Perl • PHP • Java • .NET • C • OpenGIS WMS,WFS,WCS,SOS • Open standard APIs

  43. Implementations • Ka-map • CartoWEB3 • PrimaGIS • plone • p.mapper • :

  44. p.mapper • Framework written in PHP. • Pan/zoom • Reference map • Query functions (identify, select, search)‏ • Print functions: HTML and PDF • HTML legends

  45. Accelerator management with MapServer • P.mapper used as front-end. • Two applications. • Equipment management for SPring-8 • Real-time alarm display for SCSS test accelerator • Under construction. • Property management for X-Ray FEL.

  46. Equipment management for SPring-8 • Managing equipment data • Location • Attributes • Manufacturer • Production date • Production serial number • VME slot • Stored into a RDB (PostgreSQL)‏ • Multi layers • User Generated Contents • CAD data (.dxf) files are converted to a shape file format. (File or Database)‏

  47. Functions

  48. Database query and find location