Title :
Sensitivity of robust vertex fitting algorithms
Author :
Hondt, J.D. ; Frühwirth, R. ; Vanlaer, P. ; Waltenberger, W.
Author_Institution :
Vrije Univ. Brussel, Brussels, Belgium
Abstract :
Robust vertex fitting algorithms are expected to improve the knowledge of the vertex position and of its uncertainty in the presence of mismeasured or misassociated tracks. Such contaminations are likely to happen in real data as well as in realistic detector simulations. This paper describes a simulation study of the sensitivity of two types of robust algorithms: a trimmed least squares estimator and an adaptive estimator. The statistical properties of the algorithms are studied as a function of the source and the level of contamination, and compared to the results obtained with classical least squares estimators. Two typical event topologies are studied: one resembling a high multiplicity primary vertex with a possible contamination from a nearby vertex and one resembling a low multiplicity secondary vertex in a jet.
Keywords :
Gaussian distribution; adaptive estimation; high energy physics instrumentation computing; least squares approximations; particle tracks; position sensitive particle detectors; Gaussian distribution; adaptive estimator; high multiplicity primary vertex; high-energy physics; low multiplicity secondary vertex; misassociated tracks; mismeasured tracks; realistic detector simulations; robust algorithms; robust statistics; robust vertex fitting algorithms; statistical properties; trimmed least squares estimator; typical event topologies; vertex position; Contamination; Covariance matrix; Detectors; Least squares approximation; Least squares methods; Particle tracking; Physics; Pollution measurement; Robustness; Topology; High-energy physics; robust statistics; vertex fitting;
Journal_Title :
Nuclear Science, IEEE Transactions on
DOI :
10.1109/TNS.2004.832296
