Difference between revisions of "LZKMF"
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# (optional) timedependent vertical erosion.  # (optional) timedependent vertical erosion.  
−  Within the period of data analysis the following characteristic numbers of morphodynamics (independent of tides) can be (optionally) calculated:  +  Within the period of data analysis the following [[Characteristic Numbers of Morphodynamics (independent of tides)characteristic numbers of morphodynamics (independent of tides)]] can be (optionally) calculated: 
−  * maximum depth (derived from bathymetry)  +  * [[Characteristic Numbers of Morphodynamics (independent of tides)#Definitions for the TideIndependent Characteristic Numbers of Morphodynamicsmaximum depth]] (derived from bathymetry) 
−  * minimum depth (derived from bathymetry)  +  * [[Characteristic Numbers of Morphodynamics (independent of tides)#Definitions for the TideIndependent Characteristic Numbers of Morphodynamicsminimum depth]] (derived from bathymetry) 
−  * (optional) mean depth (derived from bathymetry)  +  * (optional) [[Characteristic Numbers of Morphodynamics (independent of tides)#Definitions for the TideIndependent Characteristic Numbers of Morphodynamicsmean depth]] (derived from bathymetry) 
−  * (optional) maximum variation of depth (derived from bathymetry)  +  * (optional) [[Characteristic Numbers of Morphodynamics (independent of tides)#Definitions for the TideIndependent Characteristic Numbers of Morphodynamicsmaximum variation of depth]] (derived from bathymetry) 
−  * (optional) change of depth (derived from bathymetry)  +  * (optional) [[Characteristic Numbers of Morphodynamics (independent of tides)#Definitions for the TideIndependent Characteristic Numbers of Morphodynamicschange of depth]] (derived from bathymetry) 
−  * (optional) maximum increase of depth (derived from vertical erosion; in case from bathymetry)  +  * (optional) [[Characteristic Numbers of Morphodynamics (independent of tides)#Definitions for the TideIndependent Characteristic Numbers of Morphodynamicsmaximum increase of depth]] (derived from vertical erosion; in case from bathymetry) 
−  * (optional) maximum decrease of bottom (derived from vertical erosion; in case from bathymetry)  +  * (optional) [[Characteristic Numbers of Morphodynamics (independent of tides)#Definitions for the TideIndependent Characteristic Numbers of Morphodynamicsmaximum decrease of bottom]] (derived from vertical erosion; in case from bathymetry) 
−  * (optional) sum of vertical erosion (derived from vertical erosion; in case from bathymetry)  +  * (optional) [[Characteristic Numbers of Morphodynamics (independent of tides)#Definitions for the TideIndependent Characteristic Numbers of Morphodynamicssum of vertical erosion]] (derived from vertical erosion; in case from bathymetry) 
−  * (optional) sum of vertical deposition (derived from vertical erosion; in case from bathymetry)  +  * (optional) [[Characteristic Numbers of Morphodynamics (independent of tides)#Definitions for the TideIndependent Characteristic Numbers of Morphodynamicssum of vertical deposition]] (derived from vertical erosion; in case from bathymetry) 
−  * (optional) ratio for deposition/erosion (derived from vertical erosion; in case from bathymetry)  +  * (optional) [[Characteristic Numbers of Morphodynamics (independent of tides)#Definitions for the TideIndependent Characteristic Numbers of Morphodynamicsratio for deposition/erosion]] (derived from vertical erosion; in case from bathymetry) 
inputfiles=  inputfiles=  
# general input data (filetype [[LZKMF.DATlzkmf.dat]])  # general input data (filetype [[LZKMF.DATlzkmf.dat]])  
# time series data which shall be analysed (files of type [[DIRZ.BIN.Rdirz.bin.r]], [[DIRZ.BIN.Idirz.bin.i]], and [[DIRZ.BINdirz.bin]])  # time series data which shall be analysed (files of type [[DIRZ.BIN.Rdirz.bin.r]], [[DIRZ.BIN.Idirz.bin.i]], and [[DIRZ.BINdirz.bin]])  
−  # grid for 2D/3Ddata (filetype [[GITTER05.DAT und GITTER05.BINgitter05.dat/bin]] or filetype [[SELAFINselafin]] or filetype [[UNTRIM_GRID.DATuntrim_grid.dat]]) or profiletopography for profiledata (filetype [[PROFIL05.BINprofil05.bin]])  +  # grid for 2D/3Ddata (filetype [[GITTER05.DAT und GITTER05.BINgitter05.dat/bin]] or filetype [[SELAFINselafin]] or filetype [[UNTRIM_GRID.DATuntrim_grid.dat]]) '''or''' profiletopography for profiledata (filetype [[PROFIL05.BINprofil05.bin]]) 
outputfiles=  outputfiles=  
# results of data analyses (files of type [[DIRZ.BIN.Rdirz.bin.r]], [[DIRZ.BIN.Idirz.bin.i]], and [[DIRZ.BINdirz.bin]])  # results of data analyses (files of type [[DIRZ.BIN.Rdirz.bin.r]], [[DIRZ.BIN.Idirz.bin.i]], and [[DIRZ.BINdirz.bin]]) 
Latest revision as of 11:44, 16 June 2010
Contents
Basic Information
Name of Program
LZKMF
VersionDate
DescriptionDate
2.x / August 2009
Catchwords
August 2009
postprocessor
analysis of numerically calculated results (2D/3D and profiledata)
characteristic numbers of morphodynamics (independent of tides)
alternative bathymetry
universal direct access format for 2D/3Ddata
universal direct access format for profiledata
universal direct access format for specific locations
Short Description of Functionality
The program LZKMF is a postprocessor for different numerical models (e.g. TRIM2D, TRIM3D, TELEMAC2D, UNTRIM, UNTRIM2007 etc.). LZKMF automatically computes several characteristic numbers of morphodynamics which are independent of the presence of tides. The data must be given as timeseries (in universal direct access data format). The results of LZKMF analyses may be visualised/displayed with the graphical postprocessors HVIEW2D (for 2D/3Ddata), LQ2PRO (for profiledata) or GVIEW2D (for location data).
The following physical quantities must be available as input time series:
 timedependent (dynamic) bathymetry, and
 (optional) timedependent vertical erosion.
Within the period of data analysis the following characteristic numbers of morphodynamics (independent of tides) can be (optionally) calculated:
 maximum depth (derived from bathymetry)
 minimum depth (derived from bathymetry)
 (optional) mean depth (derived from bathymetry)
 (optional) maximum variation of depth (derived from bathymetry)
 (optional) change of depth (derived from bathymetry)
 (optional) maximum increase of depth (derived from vertical erosion; in case from bathymetry)
 (optional) maximum decrease of bottom (derived from vertical erosion; in case from bathymetry)
 (optional) sum of vertical erosion (derived from vertical erosion; in case from bathymetry)
 (optional) sum of vertical deposition (derived from vertical erosion; in case from bathymetry)
 (optional) ratio for deposition/erosion (derived from vertical erosion; in case from bathymetry)
InputFiles
 general input data (filetype lzkmf.dat)
 time series data which shall be analysed (files of type dirz.bin.r, dirz.bin.i, and dirz.bin)
 grid for 2D/3Ddata (filetype gitter05.dat/bin or filetype selafin or filetype untrim_grid.dat) or profiletopography for profiledata (filetype profil05.bin)
OutputFiles
 results of data analyses (files of type dirz.bin.r, dirz.bin.i, and dirz.bin)
 informative printer file (filetype lzkmf.sdr)
 (optional) trace of program execution (filetype lzkmf.trc)
Methodology
An arbitrary long/short period of time can be chosen to calculate characteristic numbers of morphodynamics which are independent of tides. For every node of the grid the given timeserie is analysed automatically by means of several analyses modules.
Program(s) to run before this Program
Program(s) to run after this Program
ABDF, DIDARENAME, DIDASPLIT, HVIEW2D, LQ2PRO, VTDK, VVIEW2D, XTRDATA
Additional Information
Language
Fortran90
Additional software

Original Version
Maintenance
Documentation/Literature
$PROGHOME/examples/Lzkmf/
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