Title :
Pattern recognition in position sensitive γ-ray detectors
Author :
Yearworth, M. ; Miller, A.S.
Author_Institution :
Bristol Polytech., UK
Abstract :
The NASA/ESA International Gamma-Ray Astrophysics Laboratory (INTEGRAL) γ-ray telescope satellite will use novel 3-dimensional readout position detectors and energy sensitive photon detectors. Their complexity means that significantly more raw data are generated than can be sent by conventional telemetry channels from satellite to Earth ground stations. The authors present the preliminary results of using an artificial neural network, specifically a multi-level perceptron, to reject unwanted background events and select detector events with a `good´ signature for further processing; thus improving instrument signal to noise ratio. The authors believe that the success of this technique will extend to event pre-processing in high energy physics experiments at particle accelerators and also in the design of event selection systems for positron emission tomography
Keywords :
artificial intelligence; astronomical techniques; astronomical telescopes; astronomy computing; computerised pattern recognition; gamma-ray astronomy; knowledge based systems; neural nets; position sensitive particle detectors; 3-dimensional readout position detectors; INTEGRAL; International Gamma-Ray Astrophysics Laboratory; artificial neural network; energy sensitive photon detectors; event pre-processing; event selection systems; gamma -ray telescope; high energy physics experiments; instrument signal to noise ratio; multi-level perceptron; particle accelerators; pattern recognition; position sensitive gamma -ray detectors; positron emission tomography; unwanted background events;
Conference_Titel :
Artificial Neural Networks, 1991., Second International Conference on
Conference_Location :
Bournemouth
Print_ISBN :
0-85296-531-1
