! Exogenous_Input_Parameters_for_Post_Processing.txt; 4-15-10, Std=9, total frames = 120000
! Case description
2              ! order_of_polynomial_for_curve_fitting_trajectories
10, 75         ! minimum number of velocity vectors for a good mean values for this frame; maximum_allowable_size_of_averaging_window
5, 20          ! window_to_avg_area_covered_by_particles, limit_on_max_number_particles_in_frame; This averages the number of centroids in a series of frames to get a reasonable value for Relative Particle Concentration
No             ! Use_trajectory_splicing
40, 20, 24     ! overall_residual_for_collision_traj_identification, residual_for_collision_point_identification, shifting_specular_point_identification
4              ! Minimum size for trajectory fitting
1, 1           ! number of subregions in x and y directions
0              ! Debugging switch: 1 if I want to write debugging info, 0 if not
5              ! no_columns_in_Centroid_input_for_Traj_Ident_file
0              ! If this is a single phase PIV analysis, set 'this_is_a_single_phase_fluid_measurement' to 1
0.75           ! pseudocolor_factor

! Parameters for additional analyses of particle and cluster size distribution
No  	       ! use_cluster_bimodal_analysis
000,1	       ! particle image size (IN MICRONS) to separate particles from clusters for velocity analysis
10             ! no_of_bins to divide the particle size range into, then count particle/clusters in each bin
500            ! upper_range_of_particle_size_to_analyze  Set this to larger than the largest cluster expected in the flow field


