Title :
Slow control for the ANTARES underwater neutrino detector: present and future
Author_Institution :
Centre de Phys. des Particles de Marseille
Abstract :
The ANTARES project aims to install a 0.1 km2 deep sea Cherenkov observatory for high-energy cosmic neutrino detection and long term deep-sea environmental studies. The feasibility of a kilometre scale detector is under study. In this paper we describe the slow control architecture developed for the demonstrator prototype based on the WorldFip fieldbus, and discuss different architectures scalable to a larger detector. WorldFip, a high rate and deterministic fieldbus network, is used to achieve all communications between sensors, control modules and the Slow Control data acquisition system. It is well adapted to make the whole Slow Control system work in severe environmental constraints
Keywords :
Cherenkov counters; astronomy computing; controller area networks; cosmic ray apparatus; cosmic ray neutrinos; field buses; neutrino detection; physical instrumentation control; ANTARES underwater neutrino detector; Slow Control data acquisition system; WorldFip fieldbus; control modules; deep sea Cherenkov observatory; deterministic fieldbus network; high-energy cosmic neutrino detection; kilometre scale detector; long term deep-sea environmental studies; severe environmental constraints; Communication system control; Control systems; Data acquisition; Detectors; Field buses; Neutrino sources; Observatories; Prototypes; Sensor systems; Underwater tracking;
Conference_Titel :
Real Time Conference, 1999. Santa Fe 1999. 11th IEEE NPSS
Conference_Location :
Sante Fe, NM
Print_ISBN :
0-7803-5463-X
DOI :
10.1109/RTCON.1999.842619
