VB.NET: Control Chart
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Introduction
https://code.msdn.microsoft.com/site/view/file/148203/1/1.gif
Nowadays, the automobile industry is interested in automated measuring machines to ensure quality and to compete in the global industry. Control Chart takes a major role in ensuring quality by measuring automobile components. The purpose is to make a simple Control Bar Chart for Measuring Systems like Camshaft, Crankshaft, Master Setting and so on. A digital sensor is used for measuring Camshaft and Crankshaft. Then the measured data is analyzed using the Control Chart.
Control Chart (ref)
The Control Charts are graphs which is used to check the quality of control of a process. In Control Charts UCL/LCL or USL/LSL will be used to check with the resultant data. If measurement data is within the range of limits then the process is OK (GOOD). If the measurement data is above or below the limits the process is NG (NOT GOOD).
- **OK (GOOD) -> USL <= Measurement Data >= LSL **
- NG (NOT GOOD) -> Upper Range -> Measurement Data > USL
- NG (NOT GOOD) -> Lower Range -> Measurement Data < LSL
https://code.msdn.microsoft.com/site/view/file/148204/1/SHANUCONTROL_CHART_1.JPG
In our simple Control Chart USL /LSL are used for verifying the data. USL -> Upper Specification Limit and LSL -> Lower Specification Limit. Note in this sample we used USL/LSL.
Difference between USL/LSL and UCL/LCL.
(The UCL or upper control limit and LCL or lower control limit are limits set by your process based on the actual amount of variation of your process.
The USL or upper specification limit and LSL or lower specification limit are limits set by your customer's requirements. This is the variation that they will accept from your process. Ref)
The main purpose of this article is to share what we have developed to other members.
We have created a Control Chart as a User Control so that it can be used easily in all projects.
In this article we have a attached zip file named as SHANUControlChart_SRC.zip which contains:
- "SHANUControlChart_CNT" Folder (This folder contains the Control Chart User control Source code).
- "SHANUControlChart_DEMO" Folder (This folder contains the Demo program which includes the Control Chart user control with Random Measurement sample using Timer control).
Description
Control Chart User Control:
1) First we will start with the User Control. To Create a user control:
- Create a new Windows Control Library project.
- Set the Name of Project and Click OK (here the user control name is SHANUControlChart_CNT).
- Add all the controls needed.
- In code behind declare all the public variables and public property variables. Here USL/LSL/Nominal and Measurement Data Public property has been declared which will be used to pass the data from the windows application.
'Public Property Declaration
Public Property MasterData() As String
Get
Return lblMasterData.Text
End Get
Set(value As String)
lblMasterData.Text = value
End Set
End Property
Public Property USLData() As String
Get
Return lblUslData.Text
End Get
Set(value As String)
lblUslData.Text = value
End Set
End Property
Public Property LSLData() As String
Get
Return lblLslData.Text
End Get
Set(value As String)
lblLslData.Text = value
End Set
End Property
Public Property NominalData() As String
Get
Return lblNominalData.Text
End Get
Set(value As String)
lblNominalData.Text = value
End Set
End Property
5. In our user control we have used Timer control to always check for the measurement data and produce the Bar Chart. In user control Load we have Enabled and Start the Timer. In Timer Tick Event we called the Function "LoadcontrolChart()". In this function we set all USL/LSL and measurement data and draw the Chart control.
Public Sub LoadcontrolChart()
Try
'For Barand GageLoad
upperLimitChk = False
lowerLimitchk = False
errLimtchk = False
Dim pointVal As Integer
Dim calcvalues As Double
Dim calcvalues1 As Double
' Dim upperValue As Double
Dim hasread As Integer
Dim UpperRange As Double
Dim err As String
pointVal = 3
Dim ival As Integer
sensordata = Convert.ToDouble(lblMasterData.Text.Trim())
frmMasteringPictuerBox.Refresh()
upperValue = System.Convert.ToDouble(lblUslData.Text)
lovervalue = System.Convert.ToDouble(lblLslData.Text)
If upperValue = lovervalue Then
lovervalue = lovervalue - 1
End If
inputValue = System.Convert.ToDouble(lblMasterData.Text)
'here we call the draw rectangle function
drawRectanles(barheight, barwidth, upperValue, lovervalue, loverInitialvalue, upperInititalvalue, xval, yval)
Catch ex As Exception
End Try
End Sub
In this method we check the measurement data with USL and LSL Limit Value. If measurement data is within the range of USL and LSL then the resultant output will be OK. We have used the if condition to check the resultant values as below.
'This method is to draw the control chart
Public Sub drawRectanles(ByVal barheight As Double, ByVal barwidth As Double, ByVal uppervalue As Double, ByVal lovervalue As Double, ByVal loverinitialvalue As Double, ByVal upperinitialvalue As Double, ByVal xval As Double, ByVal yval As Double)
Try
Dim limitsline As Double
Dim lowerlimitline As Double
Dim underrange As Double
Dim upperrange As Double
Dim differentpercentage As Double
Dim totalheight As Double
Dim inputvalueCal As Double
Dim finaldisplayvalue As Double
Dim backColors1 As Color
Dim backColors2 As Color
'this is for the range percentage Calculation
differentpercentage = uppervalue - lovervalue
differentpercentage = differentpercentage * 0.2
'Upper range value
upperrange = uppervalue + differentpercentage
'Lover range value
underrange = lovervalue - differentpercentage
totalheight = upperrange - underrange
'For Upper Limit
''limitsline = barheight * 0.2 - 10
limitsline = lovervalue - underrange
limitsline = limitsline / totalheight
limitsline = barheight * limitsline + 10
'For Lower Limit
lowerlimitline = uppervalue - underrange
lowerlimitline = lowerlimitline / totalheight
lowerlimitline = barheight * lowerlimitline + 10
'lowerlimitline = barheight - limitsline + 10
'for finding the rangedata
inputvalueCal = inputValue - underrange
finaldisplayvalue = inputvalueCal / totalheight
finaldisplayvalue = barheight * finaldisplayvalue
Dim g As Graphics = frmMasteringPictuerBox.CreateGraphics
Dim f5 As Font
f5 = New Font("arial", 22, FontStyle.Bold, GraphicsUnit.Pixel)
''If condition to check for the result and display the chart accordingly depend on limit values.
If inputValue = "0.000" Then
If zeroDisplay = 0 Then
backColors1 = Color.Red
backColors2 = Color.DarkRed
Dim a5 As New System.Drawing.Drawing2D.LinearGradientBrush(New RectangleF(0, 0, 90, 19), backColors1, backColors2, Drawing.Drawing2D.LinearGradientMode.Horizontal)
g.DrawString("NG -> UnderRange", f5, a5, System.Convert.ToInt32(xval) - 40, barheight + 24)
lblMasterData.ForeColor = Color.Red
frmMasteringlblmsg.Text = "NG -> UnderRange"
Else
backColors1 = Color.GreenYellow
backColors2 = Color.DarkGreen
Dim a5 As New System.Drawing.Drawing2D.LinearGradientBrush(New RectangleF(0, 0, 90, 19), backColors1, backColors2, Drawing.Drawing2D.LinearGradientMode.Horizontal)
g.DrawString("OK -> Good", f5, a5, System.Convert.ToInt32(xval) - 40, barheight + 24)
lblMasterData.ForeColor = Color.GreenYellow
frmMasteringlblmsg.Text = "OK -> Good"
End If
ElseIf inputValue >= lovervalue And inputValue <= uppervalue Then
backColors1 = Color.GreenYellow
backColors2 = Color.DarkGreen
If upperLimitChk = False Then
backColors1 = Color.GreenYellow
backColors2 = Color.DarkGreen
lblMasterData.ForeColor = Color.GreenYellow
Else
backColors1 = Color.Red
backColors2 = Color.DarkRed
lblMasterData.ForeColor = Color.Red
End If
Dim a5 As New System.Drawing.Drawing2D.LinearGradientBrush(New RectangleF(0, 0, 100, 19), backColors1, backColors2, Drawing.Drawing2D.LinearGradientMode.Horizontal)
g.DrawString("OK -> Good", f5, a5, System.Convert.ToInt32(xval) - 40, barheight + 24)
frmMasteringlblmsg.Text = "OK -> Good"
'frmMasteringlblOrignalData.ForeColor = Color.GreenYellow
ElseIf inputValue < lovervalue Then
backColors1 = Color.Red
backColors2 = Color.DarkRed
Dim a5 As New System.Drawing.Drawing2D.LinearGradientBrush(New RectangleF(0, 0, 100, 19), backColors1, backColors2, Drawing.Drawing2D.LinearGradientMode.Horizontal)
g.DrawString("NG -> UnderRange", f5, a5, System.Convert.ToInt32(xval) - 40, barheight + 24)
lblMasterData.ForeColor = Color.Red
'frmMasteringlblOrignalData.ForeColor = Color.Red
frmMasteringlblmsg.Text = "NG -> UnderRange"
ElseIf inputValue > uppervalue Then
backColors1 = Color.Red
backColors2 = Color.DarkRed
Dim a5 As New System.Drawing.Drawing2D.LinearGradientBrush(New RectangleF(0, 0, 100, 19), backColors1, backColors2, Drawing.Drawing2D.LinearGradientMode.Horizontal)
g.DrawString("NG -> UpperRange", f5, a5, System.Convert.ToInt32(xval) - 40, barheight + 24)
lblMasterData.ForeColor = Color.Red
'frmMasteringlblOrignalData.ForeColor = Color.Red
frmMasteringlblmsg.Text = "NG -> UpperRange"
Else
backColors1 = Color.Red
backColors2 = Color.DarkRed
Dim a5 As New System.Drawing.Drawing2D.LinearGradientBrush(New RectangleF(0, 0, 100, 19), backColors1, backColors2, Drawing.Drawing2D.LinearGradientMode.Horizontal)
g.DrawString("Not Good", f5, a5, System.Convert.ToInt32(xval) - 40, barheight + 24)
lblMasterData.ForeColor = Color.Red
frmMasteringlblmsg.Text = "Not Good"
End If
Dim apen As New Pen(Color.Black, 2)
g.DrawRectangle(Pens.Black, System.Convert.ToInt32(xval) - 2, System.Convert.ToInt32(yval) - 2, System.Convert.ToInt32(barwidth) + 3, System.Convert.ToInt32(barheight) + 3)
g.DrawLine(apen, System.Convert.ToInt32(xval) - 15, System.Convert.ToInt32(limitsline), System.Convert.ToInt32(xval), System.Convert.ToInt32(limitsline))
g.DrawLine(apen, System.Convert.ToInt32(xval) - 15, System.Convert.ToInt32(lowerlimitline), System.Convert.ToInt32(xval), System.Convert.ToInt32(lowerlimitline))
Dim a1 As New System.Drawing.Drawing2D.LinearGradientBrush(New RectangleF(0, 0, 100, 19), Color.Blue, Color.Orange, Drawing.Drawing2D.LinearGradientMode.Horizontal)
Dim f As Font
f = New Font("arial", 10, FontStyle.Bold, GraphicsUnit.Pixel)
g.DrawString((String.Format("{0:N3}", CDbl(uppervalue.ToString))), f, a1, System.Convert.ToInt32(xval) - 40, System.Convert.ToInt32(limitsline) + 1)
g.DrawString((String.Format("{0:N3}", CDbl(lovervalue.ToString))), f, a1, System.Convert.ToInt32(xval) - 40, System.Convert.ToInt32(lowerlimitline) + 1)
g.DrawString((String.Format("{0:N3}", CDbl(upperrange.ToString))), f, a1, System.Convert.ToInt32(xval) - 40, 9)
g.DrawString((String.Format("{0:N3}", CDbl(underrange.ToString))), f, a1, System.Convert.ToInt32(xval) - 40, barheight + 10)
Dim a As New System.Drawing.Drawing2D.LinearGradientBrush(New RectangleF(xval, barheight + 10, barwidth, finaldisplayvalue + 1), backColors1, backColors2, Drawing.Drawing2D.LinearGradientMode.Vertical)
Dim a2 As New System.Drawing.Drawing2D.LinearGradientBrush(New RectangleF(0, 0, 100, 19), Color.Black, Color.Black, Drawing.Drawing2D.LinearGradientMode.Horizontal)
Dim f2 As Font
f2 = New Font("arial", 12, FontStyle.Bold, GraphicsUnit.Pixel)
If inputValue >= upperrange Then
g.FillRectangle(a, New RectangleF(xval, 10, barwidth, barheight))
g.DrawString((String.Format("{0:N3}", CDbl(inputValue.ToString))), f2, a2, System.Convert.ToInt32(xval) + 40, yval - 8)
ElseIf inputValue <= underrange Then
g.FillRectangle(a, New RectangleF(xval, barheight + 10, barwidth, 4))
g.DrawString((String.Format("{0:N3}", CDbl(inputValue.ToString))), f2, a2, System.Convert.ToInt32(xval) + 40, barheight + 10)
Else
g.FillRectangle(a, New RectangleF(xval, barheight - finaldisplayvalue + 10, barwidth, finaldisplayvalue))
g.DrawString((String.Format("{0:N3}", CDbl(inputValue.ToString))), f2, a2, System.Convert.ToInt32(xval) + 40, barheight - System.Convert.ToInt32(finaldisplayvalue))
End If
' End If
g.Dispose()
Catch ex As Exception
End Try
End Sub
6. After completion Save. Build and run the project.
Adding Control Chart User Control
2) Now we create a Windows application and add and test our "SHANUControlChart_CNT" User Control.
- Create a new Windows project.
- Open your form and then from** Toolbox > right click > choose items > **browse select your user control DLL and add.
- Drag the User Control to your windows form.
- Place all the USL/LSL and Measurement Textbox for input from the user. In manual check button click pass all the data to user control using the public property as below.
private void btnDisplay_Click(object sender, EventArgs e)
{
shanuControlChart.USLData = txtusl.Text;
shanuControlChart.LSLData = txtLSL.Text;
shanuControlChart.NominalData = txtNominal.Text;
shanuControlChart.MasterData = txtData.Text;
}
- In our demo program we have used the Timer for the random sample measurement data result checking. We used the "btnRealTime" as Toggle button. When first time clicked Enabled and Start the Timer and same button clicked again Stop the Timer. When timer is Start we have generated a random number and pass the different data to user control and check for the chart result.
private void btnRealTime_Click(object sender, EventArgs e)
{
if (btnRealTime.Text == "Real Time Data ON")
{
btnRealTime.Text = "Real Time Data OFF";
btnRealTime.ForeColor = Color.Red;
timer1.Enabled = true;
timer1.Start();
}
else
{
btnRealTime.Text = "Real Time Data ON";
btnRealTime.ForeColor = Color.DarkGreen;
timer1.Enabled = false;
timer1.Stop();
}
}
' Timer Tick Event to check for the different random sample Measurement test data.
private void timer1_Tick(object sender, EventArgs e)
{
Random rnd =new Random();
Double rndval = rnd.Next(1, 20);
txtData.Text = rndval.ToString("0.000");//FormatNumber(rndval.ToString(), 3, , 0)
shanuControlChart.USLData = txtusl.Text;
shanuControlChart.LSLData = txtLSL.Text;
shanuControlChart.NominalData = txtNominal.Text;
shanuControlChart.MasterData = txtData.Text;
}
You can download the Source Code from this link Download Source Code