
RPOPPFName:
with c denoting the shape parameter. This distribution can be extended with lower and upper bound parameters. If a and b denote the lower and upper bounds, respectively, then the location and scale parameters are:
scale = b  a The general form of the distribution can then be found by using the relation
The reflected power distribution is a special case of the beta distribution where the first shape parameter = 1 (the power distribution is a special case of the beta distribution where the second shape parameter = 1).
<SUBSET/EXCEPT/FOR qualification> where <x> is a number, parameter, or variable containing values in the interval (0,1); <y> is a variable or a parameter (depending on what <p> is) where the computed reflected power ppf value is stored; <c> is a positive number, parameter, or variable that specifies the shape parameter; <a> is a number, parameter, or variable that specifies the lower limit; <b> is a number, parameter, or variable that specifies the upper limit; and where the <SUBSET/EXCEPT/FOR qualification> is optional. If <a> and <b> are omitted, they default to 0 and 1, respectively.
LET Y = RPOPPF(X,0.5,0,5) PLOT RPOPPF(X,2.3) FOR X = 0 0.01 1
LABEL CASE ASIS TITLE CASE ASIS TITLE OFFSET 2 . MULTIPLOT 2 2 MULTIPLOT CORNER COORDINATES 0 0 100 95 MULTIPLOT SCALE FACTOR . LET C = 0.5 TITLE C = ^c PLOT RPOPPF(P,C) FOR P = 0.01 0.01 1 . LET C = 1 TITLE C = ^c PLOT RPOPPF(P,C) FOR P = 0 0.01 1 . LET C = 1.5 TITLE C = ^c PLOT RPOPPF(P,C) FOR P = 0 0.01 1 . LET C = 2 TITLE C = ^c PLOT RPOPPF(P,C) FOR P = 0 0.01 1 . END OF MULTIPLOT . JUSTIFICATION CENTER MOVE 50 97 TEXT Reflected Power Percent Point Functions
Date created: 12/17/2007 