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Other Keywords |
Page |
| THCOMA04 |
A simple DAQ system based on LabVIEW, php and MySQL
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controls, radiation, monitoring, linac |
112 |
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- M. Tanigaki, K. Takamiya
KURRI, Osaka
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A tiny and simple DAQ system has been designed and developed for the application to the control system in our institute. This DAQ system is based on on LabView, MySQL and apache, and shows good compatibility with LabVIEW-based system like the control system for the FFAG complex in our institute. The current status for the development, as well as the recent accelerator-related status in our institute, will be introduced.
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Slides
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| THPL026 |
ESS Controls Strategy and Control Box Concept
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controls, target, linac, instrumentation |
183 |
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- I. Verstovsek, K. Zagar
Cosylab, Ljubljana
- S. Peggs, C. G. Trahern
ESS-S, Lund
- T. Satogata
BNL, Upton, Long Island, New York
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European Spallation Source (ESS) will be constructed by a number of partner institutions in an international collaboration, thus increasing organizational risk as control system integration will be performed by a large number of independent teams. From the earliest stages in the project a lot of effort will be put into standardization of hardware, software and development procedures. ESS will use EPICS control system and will build on the positive experience of SNS and ITER. The basic unit of standardization is called the Control Box, and consists of one or more input/output controller (IOC) computers, zero or more I/O modules, PLC subsystems and intelligent special-purpose controllers, with all the software and a fully integrated development environment support. In this article we present the challenges faced by the Control Box concept and the benefits it brings.
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| FRCOAA02 |
Database-driven Status Analysis in Beam Operation at the Heidelberg Ion Therapy Center
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ion, controls, ion-source, target |
205 |
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- K. Höppner, R. Cee, M. Galonska, Th. Haberer, J. M. Mosthaf, A. Peters, S. Scheloske
HIT, Heidelberg
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The HIT (Heidelberg Ion Therapy) center is the first dedicated European accelerator facility for cancer therapy using both carbon ions and protons, located at the university hospital in Heidelberg. It provides three therapy treatment rooms, two with fixed beam exit (one operational since 2009, one under commissioning), and the first gantry worldwide where the beam exit can be rotated by 360 degrees, currently under commissioning. HIT uses a PC-based proprietary software system for accelerator controls with an Oracle database for storing device parameters, beam history, error logging etc. Since medical treatment of humans requires a high level of quality assurance, a detailed analysis of beam quality and error logs is needed. We wrote a series of database applications using Python to perform these tasks automatically and create daily reports on beam statistics and parameters, machine status and errors occurred. Additionally, some graphical applications on top of the commercial control system help the scientists and operators in the beam commissioning of the new therapy treatment rooms and the gantry. We will present these applications and show how they are used at HIT.
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