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Classes | Public Member Functions | Private Attributes

CSCTimingExtractor Class Reference

#include <RecoMuon/MuonIdentification/src/CSCTimingExtractor.cc>

List of all members.

Classes

class  TimeMeasurement

Public Member Functions

 CSCTimingExtractor (const edm::ParameterSet &)
 Constructor.
void fillTiming (TimeMeasurementSequence &tmSequence, reco::TrackRef muonTrack, const edm::Event &iEvent, const edm::EventSetup &iSetup)
 ~CSCTimingExtractor ()
 Destructor.

Private Attributes

edm::InputTag CSCSegmentTags_
bool debug
unsigned int theHitsMin_
MuonSegmentMatchertheMatcher
double thePruneCut_
MuonServiceProxytheService
double theStripError_
double theStripTimeOffset_
double theWireError_
double theWireTimeOffset_
bool UseStripTime
bool UseWireTime

Detailed Description

Extracts timing information associated to a muon track

Description: <one line="" class="" summary>="">

Definition at line 55 of file CSCTimingExtractor.h.


Constructor & Destructor Documentation

CSCTimingExtractor::CSCTimingExtractor ( const edm::ParameterSet iConfig)

Constructor.

Definition at line 70 of file CSCTimingExtractor.cc.

References edm::ParameterSet::getParameter(), MuonSegmentMatcher_cff::MuonSegmentMatcher, MuonServiceProxy_cff::MuonServiceProxy, theMatcher, and theService.

  :
  CSCSegmentTags_(iConfig.getParameter<edm::InputTag>("CSCsegments")),
  thePruneCut_(iConfig.getParameter<double>("PruneCut")),
  theStripTimeOffset_(iConfig.getParameter<double>("CSCStripTimeOffset")),
  theWireTimeOffset_(iConfig.getParameter<double>("CSCWireTimeOffset")),
  theStripError_(iConfig.getParameter<double>("CSCStripError")),
  theWireError_(iConfig.getParameter<double>("CSCWireError")),
  UseWireTime(iConfig.getParameter<bool>("UseWireTime")),
  UseStripTime(iConfig.getParameter<bool>("UseStripTime")),
  debug(iConfig.getParameter<bool>("debug"))
{
  edm::ParameterSet serviceParameters = iConfig.getParameter<edm::ParameterSet>("ServiceParameters");
  theService = new MuonServiceProxy(serviceParameters);
  
  edm::ParameterSet matchParameters = iConfig.getParameter<edm::ParameterSet>("MatchParameters");

  theMatcher = new MuonSegmentMatcher(matchParameters, theService);
}
CSCTimingExtractor::~CSCTimingExtractor ( )

Destructor.

Definition at line 91 of file CSCTimingExtractor.cc.

References theMatcher, and theService.

{
  if (theService) delete theService;
  if (theMatcher) delete theMatcher;
}

Member Function Documentation

void CSCTimingExtractor::fillTiming ( TimeMeasurementSequence tmSequence,
reco::TrackRef  muonTrack,
const edm::Event iEvent,
const edm::EventSetup iSetup 
)

Definition at line 104 of file CSCTimingExtractor.cc.

References gather_cfg::cout, debug, diffTreeTool::diff, CSCTimingExtractor::TimeMeasurement::distIP, TimeMeasurementSequence::dstnc, edm::EventSetup::get(), i, GlobalTrackingGeometry::idToDet(), TimeMeasurementSequence::local_t0, mag(), MuonServiceProxy::magneticField(), MuonSegmentMatcher::matchCSC(), pos, edm::ESHandle< T >::product(), Propagator::propagateWithPath(), LargeD0_PixelPairStep_cff::propagator, mathSSE::sqrt(), GeomDet::surface(), theMatcher, thePruneCut_, theService, theStripError_, theStripTimeOffset_, MuonServiceProxy::theTrackingGeometry, theWireError_, theWireTimeOffset_, CSCTimingExtractor::TimeMeasurement::timeCorr, GeomDet::toGlobal(), TimeMeasurementSequence::totalWeightInvbeta, TimeMeasurementSequence::totalWeightVertex, MuonServiceProxy::trackingGeometry(), MuonServiceProxy::update(), UseStripTime, UseWireTime, TimeMeasurementSequence::weightInvbeta, CSCTimingExtractor::TimeMeasurement::weightInvbeta, TimeMeasurementSequence::weightVertex, and CSCTimingExtractor::TimeMeasurement::weightVertex.

Referenced by MuonTimingFiller::fillTiming().

{

  if (debug) 
    std::cout << " *** CSC Timimng Extractor ***" << std::endl;

  theService->update(iSetup);

  const GlobalTrackingGeometry *theTrackingGeometry = &*theService->trackingGeometry();
  
  edm::ESHandle<Propagator> propagator;
  iSetup.get<TrackingComponentsRecord>().get("SteppingHelixPropagatorAny", propagator);
  const Propagator *propag = propagator.product();

  double invbeta=0;
  double invbetaerr=0;
  double totalWeightInvbeta=0;
  double totalWeightVertex=0;
  std::vector<TimeMeasurement> tms;

  math::XYZPoint  pos=muonTrack->innerPosition();
  math::XYZVector mom=muonTrack->innerMomentum();

  if (sqrt(muonTrack->innerPosition().mag2()) > sqrt(muonTrack->outerPosition().mag2())){
     pos=muonTrack->outerPosition();
     mom=-1*muonTrack->outerMomentum();
  }

  GlobalPoint  posp(pos.x(), pos.y(), pos.z());
  GlobalVector momv(mom.x(), mom.y(), mom.z());
  FreeTrajectoryState muonFTS(posp, momv, (TrackCharge)muonTrack->charge(), theService->magneticField().product());

  // get the CSC segments that were used to construct the muon
  std::vector<const CSCSegment*> range = theMatcher->matchCSC(*muonTrack,iEvent);

  // create a collection on TimeMeasurements for the track        
  for (std::vector<const CSCSegment*>::iterator rechit = range.begin(); rechit!=range.end();++rechit) {

    // Create the ChamberId
    DetId id = (*rechit)->geographicalId();
    CSCDetId chamberId(id.rawId());
    //    int station = chamberId.station();

    if (!(*rechit)->specificRecHits().size()) continue;

    const std::vector<CSCRecHit2D> hits2d = (*rechit)->specificRecHits();

    // store all the hits from the segment
    for (std::vector<CSCRecHit2D>::const_iterator hiti=hits2d.begin(); hiti!=hits2d.end(); hiti++) {

      const GeomDet* cscDet = theTrackingGeometry->idToDet(hiti->geographicalId());
      TimeMeasurement thisHit;

      std::pair< TrajectoryStateOnSurface, double> tsos;
      tsos=propag->propagateWithPath(muonFTS,cscDet->surface());

      double dist;            
      if (tsos.first.isValid()) dist = tsos.second+posp.mag(); 
        else dist = cscDet->toGlobal(hiti->localPosition()).mag();

      thisHit.distIP = dist;
      if (UseStripTime) {
        thisHit.weightInvbeta = dist*dist/(theStripError_*theStripError_*30.*30.);
        thisHit.weightVertex = 1./(theStripError_*theStripError_);
        thisHit.timeCorr = hiti->tpeak()-theStripTimeOffset_;
        tms.push_back(thisHit);
      }

      if (UseWireTime) {
        thisHit.weightInvbeta = dist*dist/(theWireError_*theWireError_*30.*30.);
        thisHit.weightVertex = 1./(theWireError_*theWireError_);
        thisHit.timeCorr = hiti->wireTime()-theWireTimeOffset_;
        tms.push_back(thisHit);
      }

      
//      std::cout << " CSC Hit. Dist= " << dist << "    Time= " << thisHit.timeCorr 
//           << "   invBeta= " << (1.+thisHit.timeCorr/dist*30.) << std::endl;
    }

  } // rechit
      
  bool modified = false;
  std::vector <double> dstnc, dsegm, dtraj, hitWeightInvbeta, hitWeightVertex;

  // Now loop over the measurements, calculate 1/beta and cut away outliers
  do {    

    modified = false;
    dstnc.clear();
    dsegm.clear();
    dtraj.clear();
    hitWeightInvbeta.clear();
    hitWeightVertex.clear();
      
    totalWeightInvbeta=0;
    totalWeightVertex=0;
      
        for (std::vector<TimeMeasurement>::iterator tm=tms.begin(); tm!=tms.end(); ++tm) {
          dstnc.push_back(tm->distIP);
          dsegm.push_back(tm->timeCorr);
          hitWeightInvbeta.push_back(tm->weightInvbeta);
          hitWeightVertex.push_back(tm->weightVertex);
          totalWeightInvbeta+=tm->weightInvbeta;
          totalWeightVertex+=tm->weightVertex;
        }
          
    if (totalWeightInvbeta==0) break;        

    // calculate the value and error of 1/beta from the complete set of 1D hits
    if (debug)
      std::cout << " Points for global fit: " << dstnc.size() << std::endl;

    // inverse beta - weighted average of the contributions from individual hits
    invbeta=0;
    for (unsigned int i=0;i<dstnc.size();i++) 
      invbeta+=(1.+dsegm.at(i)/dstnc.at(i)*30.)*hitWeightInvbeta.at(i)/totalWeightInvbeta;

    double chimax=0.;
    std::vector<TimeMeasurement>::iterator tmmax;
    
    // the dispersion of inverse beta
    double diff;
    for (unsigned int i=0;i<dstnc.size();i++) {
      diff=(1.+dsegm.at(i)/dstnc.at(i)*30.)-invbeta;
      diff=diff*diff*hitWeightInvbeta.at(i);
      invbetaerr+=diff;
      if (diff>chimax) { 
        tmmax=tms.begin()+i;
        chimax=diff;
      }
    }
    
    invbetaerr=sqrt(invbetaerr/totalWeightInvbeta); 
 
    // cut away the outliers
    if (chimax>thePruneCut_) {
      tms.erase(tmmax);
      modified=true;
    }    

    if (debug)
      std::cout << " Measured 1/beta: " << invbeta << " +/- " << invbetaerr << std::endl;

  } while (modified);

  // std::cout << " *** FINAL Measured 1/beta: " << invbeta << " +/- " << invbetaerr << std::endl;

  for (unsigned int i=0;i<dstnc.size();i++) {
    tmSequence.dstnc.push_back(dstnc.at(i));
    tmSequence.local_t0.push_back(dsegm.at(i));
    tmSequence.weightInvbeta.push_back(hitWeightInvbeta.at(i));
    tmSequence.weightVertex.push_back(hitWeightVertex.at(i));
  }

  tmSequence.totalWeightInvbeta=totalWeightInvbeta;
  tmSequence.totalWeightVertex=totalWeightVertex;

}

Member Data Documentation

Definition at line 78 of file CSCTimingExtractor.h.

bool CSCTimingExtractor::debug [private]

Definition at line 87 of file CSCTimingExtractor.h.

Referenced by fillTiming().

unsigned int CSCTimingExtractor::theHitsMin_ [private]

Definition at line 79 of file CSCTimingExtractor.h.

Definition at line 91 of file CSCTimingExtractor.h.

Referenced by CSCTimingExtractor(), fillTiming(), and ~CSCTimingExtractor().

Definition at line 80 of file CSCTimingExtractor.h.

Referenced by fillTiming().

Definition at line 89 of file CSCTimingExtractor.h.

Referenced by CSCTimingExtractor(), fillTiming(), and ~CSCTimingExtractor().

Definition at line 83 of file CSCTimingExtractor.h.

Referenced by fillTiming().

Definition at line 81 of file CSCTimingExtractor.h.

Referenced by fillTiming().

Definition at line 84 of file CSCTimingExtractor.h.

Referenced by fillTiming().

Definition at line 82 of file CSCTimingExtractor.h.

Referenced by fillTiming().

Definition at line 86 of file CSCTimingExtractor.h.

Referenced by fillTiming().

Definition at line 85 of file CSCTimingExtractor.h.

Referenced by fillTiming().