3,262 research outputs found
Direct Photon Identification with Artificial Neural Network in the Photon Spectrometer PHOS
A neural network method is developed to discriminate direct photons from the
neutral pion background in the PHOS spectrometer of the ALICE experiment at the
LHC collider. The neural net has been trained to distinguish different classes
of events by analyzing the energy-profile tensor of a cluster in its eigen
vector coordinate system. Monte-Carlo simulations show that this method
diminishes by an order of magnitude the probability of -meson
misidentification as a photon with respect to the direct photon identification
efficiency in the energy range up to 120 GeV.Comment: 12 pages, TeX (or Latex, etc), https://edms.cern.ch/document/406291/
Strategic Time-Based Metering that Assures Separation for Integrated Operations in a Terminal Airspace
This paper reports an algorithm for strategic time-based metering of air traffic arriving and departing from a large ( tens of nautical miles) area (called here, the commitment region) around an airport or metroplex. The algorithm assures separation continuously in time and avoids a dictation of intent to an aircraft crew. This is accomplished by allowing an aircraft (specifically, its Flight Management System) to specify, and commit to, an intended route and ground speed profile along that route within the commitment region, and by supplying the time at which to enter the region to the aircraft crew. The airspace that comprises the commitment region need not be confined to the terminal airspace and can include some of the enroute space: the size and shape of the commitment region are parameters in the algorithm. An exact formula for including speed profile uncertainty in the algorithm is provided. The algorithm is applied to a number of data sets recorded during actual air traffic operations in the Southern California TRACON in July of 2014 and the Atlanta TRACON in November and December of 2013. The results of the numerical simulations indicate that the algorithm succeeds at keeping the aircraft separated, but introduces, in its current implementation, more separation than that observed in actual operations. This excess separation can be reduced by modeling more accurately the Visual Flight Rules separation practices, a direction for future research
- …