Methods of tracking pedestrian heading angle using smart phones data for pedestrian safety applications

1. A method for tracking pedestrian heading angle using smart phones data for pedestrian safety applications, said method comprising:

• a central computer receiving global positioning system location data for a pedestrian during a first time period from a remote location;
  
  said central computer calculating an angle for heading and a vector for direction of said pedestrian, using said global positioning system location data for said pedestrian during said first time period;
  
  said central computer predicting a first choice candidate for intended intersection segment for said pedestrian to cross, based on said angle for heading and said vector for said direction of said pedestrian;
  
  said central computer predicting a second choice candidate for intended intersection segment for said pedestrian to cross, based on said angle for heading and said vector for said direction of said pedestrian;
  
  wherein said first choice candidate for intended intersection segment for said pedestrian to cross is perpendicular to said second choice candidate for intended intersection segment for said pedestrian to cross;
  
  said central computer monitoring speed profile for said pedestrian;
  
  if said central computer detects a drop from consistent range of said speed profile for said pedestrian, then said central computer determining that said pedestrian is stopping;
  
  said central computer determining cluster of positions for said pedestrian at rest status;
  
  said central computer monitoring acceleration profile for said pedestrian in 3 different dimensions;
  
  if said central computer detects a large negative drop from consistent range of said acceleration profile for said pedestrian, then said central computer determining that said pedestrian is stopping;
  
  said central computer receiving a flag value for rest status;
  
  said central computer receiving a radius value threshold distance;
  
  if said flag value for rest status is not true, and if distance between location of said pedestrian to an edge of an intersection for a street or highway is less than said radius value threshold distance, then said central computer selecting said first choice candidate for intended intersection segment for said pedestrian to cross;
  
  if said flag value for rest status is true, then said central computer evaluating behavior of said angle for heading for said direction of said pedestrian, before and during a stop event;
  
  a computation module integrating yaw rate for said pedestrian, for a second time period, to get an integrated yaw rate;
  
  said central computer receiving said integrated yaw rate from said computation module;
  
  said central computer offsetting said angle for heading for said direction of said pedestrian by said integrated yaw rate, to get a corrected angle for heading for said direction of said pedestrian;
  
  said central computer determining if said pedestrian is stopping, using said corrected angle for heading for said direction of said pedestrian;
  
  if said central computer detects that said pedestrian is walking, said central computer evaluating how said corrected angle for heading for said direction of said pedestrian correlates with a recent value of said angle for heading for said direction of said pedestrian.