The input file in this case is a 9-band band sequential binary SSM/I image: latitude and longitude in the first two positions (this is necessary for TeraScan), followed by the seven SSMI channels in order. I used get_ssmi_f13a_subset.pro to generate the SSMI binary file from the swath SSMI hdf file from MSFC.
- tephra.geo(37)% impbin
- in/out files : char(255) ? f13_Tb_96032_27A_lake_superior_ssmi78x42x9.bin f13_Tb_96032_27A_lake_superior_ssmi78x42x9.temp2
- dim_sizes : int ( 3) ? 3276
(product of rows*colums)
- dim_names : char( 31) ? [points]
- var_names : char(255) ? latitude longitude 19v 19h 22v 37v 37h 85v 85h
- var_units : char(255) ? [- - - - - - - - - ]
- var_types : char(143) ? fl fl fl fl fl fl fl fl fl
- var_badvals : real( 9) ? [0 0 0 0 0 0 0 0 0]
- sort_by_var : char( 3) ? [yes]
- header_size : int ? [0]
- rel_offsets : int ( 9) ? [0 0 0 0 0 0 0 0 0]
- instantiate : char( 3) ? [no]
- tephra.geo(38)% imgrid
- in/out files : char(255) ? f13_Tb_96032_27A_lake_superior_ssmi78x42x9.temp2 f
13_Tb_96032_27A_lake_superior_ssmi78x42x9.reg
- master_file : char(255) ? [Master]
- grid_spacing : int ? [1]
- search_radius : int ? [10]
- wt_power : int ? [2]
- z_variable : char(255) ? 19v 19h 22v 37v 37h 85v 85h
- z_index : int ? [1] 7
- tephra.geo(39)%