Tool SAFETYFACTOR

This tool computes a slope stability (expressed as a factor-of-safety) raster according to the traditional infinite slope model theory (see cf Selby, 1993) The resulting raster represents the ratio of resisting forces/driving forces (fs) on a potential shear plane with fs lesser 1 unstable, fs greater 1 stable. Except for a slope raster (in radians), all input variables can be specified either globally or distributed (through grids). The tool creates a continuous fs raster (values above 10 are truncated), and a binary stability grid with nodata = stable, 1 = unstable (optional).

Author: A. Günther (c) 2012
Menu: Terrain Analysis|Slope Stability

Parameters

	Name	Type	Identifier	Description	Constraints
Input	Slope grid (rad)	Grid, input	`A`	A slope angle grid (in radíans)	-
	Min thickness grid (m) (*)	Grid, input, optional	`Bmin`	A grid representing minimum cell layer thicknesses to potential shear plane (in meters)	-
	Max thickness grid (m) (*)	Grid, input, optional	`Bmax`	A grid representing maximum cell layer thicknesses to potential shear plane (in meters)	-
	Min saturation grid (-) (*)	Grid, input, optional	`Cmin`	A grid representing minimum cell relative water saturation of layer (dimensionless)	-
	Max saturation grid (-) (*)	Grid, input, optional	`Cmax`	A grid representing maximum cell relative water saturation of layer (dimensionless)	-
	Min friction grid (degree) (*)	Grid, input, optional	`Dmin`	A grid representing minimum cell frictional shear strength of layer (in degrees)	-
	Max friction grid (degree) (*)	Grid, input, optional	`Dmax`	A grid representing maximum cell frictional shear strength of layer (in degrees)	-
	Min density grid (g/cm3) (*)	Grid, input, optional	`Emin`	A grid representing minimum cell bulk density of layer (in grams per cubiccentimeters)	-
	Max density grid (g/cm3) (*)	Grid, input, optional	`Emax`	A grid representing maximum cell bulk density of layer (in grams per cubiccentimeters)	-
	Min cohesion grid (MPa) (*)	Grid, input, optional	`Fmin`	A grid representing minimum cell layer cohesion (in Megapascals)	-
	Max cohesion grid (MPa) (*)	Grid, input, optional	`Fmax`	A grid representing maximum cell layer cohesion (in Megapascals)	-
Output	FS values	Grid, output	`G`	Resulting factor-of-safety (-) grid	-
Output	FS classes (*)	Grid, output, optional	`H`	Resulting stability (0/1) grid	-
Options	Grid System	Grid system	`PARAMETERS_GRID_SYSTEM`	-	-
	Min global thickness (m)	Floating point	`fBmin`	Constant value if no raster set	Default: 1.000000
	Max global thickness (m)	Floating point	`fBmax`	Constant value if no raster set	Default: 1.000000
	Min global saturation (-)	Floating point	`fCmin`	Constant value if no raster set	Default: 0.000000
	Max global saturation (-)	Floating point	`fCmax`	Constant value if no raster set	Default: 0.000000
	Min global friction (degree)	Floating point	`fDmin`	Constant value if no raster set	Default: 33.000000
	Max global friction (degree)	Floating point	`fDmax`	Constant value if no raster set	Default: 33.000000
	Min global density (g/cm3)	Floating point	`fEmin`	Constant value if no raster set	Default: 1.600000
	Max global density (g/cm3)	Floating point	`fEmax`	Constant value if no raster set	Default: 1.600000
	Min global cohesion (MPa)	Floating point	`fFmin`	Constant value if no raster set	Default: 0.000000
	Max global cohesion (MPa)	Floating point	`fFmax`	Constant value if no raster set	Default: 0.000000
	Parameter sampling runs	Integer	`fI`	Number of sampling cycles	Default: 1
(*) optional

Command-line

Usage: saga_cmd ta_slope_stability 0 [-A <str>] [-Bmin <str>] [-Bmax <str>] [-Cmin <str>] [-Cmax <str>] [-Dmin <str>] [-Dmax <str>] [-Emin <str>] [-Emax <str>] [-Fmin <str>] [-Fmax <str>] [-fBmin <double>] [-fBmax <double>] [-fCmin <double>] [-fCmax <double>] [-fDmin <double>] [-fDmax <double>] [-fEmin <double>] [-fEmax <double>] [-fFmin <double>] [-fFmax <double>] [-fI <num>] [-G <str>] [-H <str>]
  -A:<str>       	Slope grid (rad)
	Grid, input
  -Bmin:<str>    	Min thickness grid (m) 
	Grid, input, optional
  -Bmax:<str>    	Max thickness grid (m) 
	Grid, input, optional
  -Cmin:<str>    	Min saturation grid (-) 
	Grid, input, optional
  -Cmax:<str>    	Max saturation grid (-) 
	Grid, input, optional
  -Dmin:<str>    	Min friction grid (degree) 
	Grid, input, optional
  -Dmax:<str>    	Max friction grid (degree) 
	Grid, input, optional
  -Emin:<str>    	Min density grid (g/cm3)
	Grid, input, optional
  -Emax:<str>    	Max density grid (g/cm3)
	Grid, input, optional
  -Fmin:<str>    	Min cohesion grid (MPa) 
	Grid, input, optional
  -Fmax:<str>    	Max cohesion grid (MPa) 
	Grid, input, optional
  -fBmin:<double>	Min global thickness (m)
	Floating point
	Default: 1.000000
  -fBmax:<double>	Max global thickness (m)
	Floating point
	Default: 1.000000
  -fCmin:<double>	Min global saturation (-)
	Floating point
	Default: 0.000000
  -fCmax:<double>	Max global saturation (-)
	Floating point
	Default: 0.000000
  -fDmin:<double>	Min global friction (degree)
	Floating point
	Default: 33.000000
  -fDmax:<double>	Max global friction (degree)
	Floating point
	Default: 33.000000
  -fEmin:<double>	Min global density (g/cm3)
	Floating point
	Default: 1.600000
  -fEmax:<double>	Max global density (g/cm3)
	Floating point
	Default: 1.600000
  -fFmin:<double>	Min global cohesion (MPa)
	Floating point
	Default: 0.000000
  -fFmax:<double>	Max global cohesion (MPa)
	Floating point
	Default: 0.000000
  -fI:<num>      	Parameter sampling runs
	Integer
	Default: 1
  -G:<str>       	FS values
	Grid, output
  -H:<str>       	FS classes
	Grid, output, optional