File:MATLABXBarChartForPairedXBarAndSChart.png
Summary
| Description |
English: A en:MATLAB-generated xbar en:Control chart for a process that experienced a 1.5σ drift starting at midnight. This chart is paired with an s chart to form an en:Xbar and s chart. |
| Date | |
| Source | Own work |
| Author | DanielPenfield |
Licensing
DanielPenfield, the copyright holder of this work, hereby publishes it under the following license:
This file is licensed under the Creative Commons Attribution-Share Alike 3.0 Unported license.
Attribution:
- You are free:
- to share – to copy, distribute and transmit the work
- to remix – to adapt the work
- Under the following conditions:
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- share alike – If you remix, transform, or build upon the material, you must distribute your contributions under the same or compatible license as the original.
Source code
This media was created with Perl (interpreted programming language first released in 1987)Category:Images with Perl source code
Here is a listing of the source used to create this file.
Here is a listing of the source used to create this file.
#!/usr/bin/perl -w
use strict;
use Math::Random;
my %shiftSchedule = (
"first" => { "start" => 6.00, "end" => 14.00 },
"second" => { "start" => 14.00, "end" => 22.00 },
"third" => { "start" => 22.00, "end" => 6.00 }
);
my $shift = "third"; # shift to monitor
my $inspectionRate = 1 / 2; # every 1/2 hour
my $drift = 1.5; # drift to simulate
my $m = 25; # samples in control chart setup
my $n = 12; # observations per sample
my $target = 100.0; # quality characteristic target
my $hour;
my $i;
my $j;
my $minute;
my $observation;
my $setupM = $m;
#
# simulate control chart setup
#
open(SETUPCSV, ">xs_setup.csv") || die "! can't open \"xs_setup.csv\" ($!)\n";
for ($i = 1; $i <= $m; $i++) {
for ($j = 0; $j < $n; $j++) {
$observation = $target + random_normal();
if ($j > 0) {
print SETUPCSV ",";
}
printf SETUPCSV "%7.3f", $observation;
}
printf SETUPCSV "\r\n";
}
close(SETUPCSV);
#
# simulate control chart monitoring
#
open(MONITORINGCSV, ">xs_monitoring.csv") || die "! can't open \"xs_monitoring.csv\" ($!)\n";
$m = $shiftSchedule{$shift}{"end"} - $shiftSchedule{$shift}{"start"};
if ($m < 0) {
$m += 24;
}
$m /= $inspectionRate;
for ($i = 1; $i <= $m; $i++) {
$hour = int($i * $inspectionRate + $shiftSchedule{$shift}{"start"});
if ($hour >= 24) {
$hour -= 24;
}
$minute = ($i & 0x1) ? (60 * $inspectionRate) : 0;
printf MONITORINGCSV "'%d:%02d'", $hour, $minute;
for ($j = 0; $j < $n; $j++) {
$observation = $target + random_normal();
if ($i >= (0.25 * $m)) {
if ($i < (0.75 * $m)) {
$observation += ($drift / (0.5 * $m)) * ($i - (0.25 * $m));
} else {
$observation += $drift;
}
}
printf MONITORINGCSV ",%7.3f", $observation;
}
printf MONITORINGCSV "\r\n";
}
close(MONITORINGCSV);
Source code
This media was created with MATLAB (numerical computing environment)Category:Images with MATLAB source code
Here is a listing of the source used to create this file.
Here is a listing of the source used to create this file.
%
% display an xbar control chart in MATLAB
%
clear
%
% Phase I
%
% compute the control chart center line and control limits based on a
% process that is simulated to be in a state of statistical control
%
setupobservations = csvread('xs_setup.csv');
setupstats = controlchart(setupobservations, 'charttype', 'xbar');
%
% Phase II
%
% read in the process observations representing the monitoring phase
%
observations = importdata('xs_monitoring.csv');
%
% first column is the time of the observation (24 hour clock)
%
halfhourlylabel = observations.rowheaders;
%
% second column consists of the observations (counts of
% nonconformances per rational subgroup)
%
monitoringobservations = observations.data;
%
% just display labels on the "on the hour" ticks
%
emptylabel = cell(size(monitoringobservations,1) - size(halfhourlylabel,1), 1);
emptylabel(:) = {''};
hourlylabel = vertcat(halfhourlylabel(2:2:end), emptylabel);
%
% plot the control chart for the monitoring phase observations
%
monitoringstats = controlchart(monitoringobservations, ...
'charttype', 'xbar', ...
'label', halfhourlylabel.', ...
'mean', setupstats.mu, ...
'sigma', setupstats.sigma);
title('xbar chart for quality characteristic XXX')
xlabel('Sample')
ylabel('Mean value (units)')
%
% the labels supplied to controlchart() only appear when the user
% selects a plotted point with her mouse--we have to explicitly
% set labels in the X axis if we want them
%
set(gca,'XTickLabel', hourlylabel)
 |
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