T3 3 Averages

t3 average

This function is an Pine version of the moving average described in
the January, 1998 issue of S&C magazine, p.57, "Smoothing Techniques
for More Accurate Signals", by Tim Tillson. It is translated from the
MetaStock code presented in the article. The function uses a version
of the XAverage, written by me, which allows variables as inputs.

The most popular method of interpreting a moving average is to compare
the relationship between a moving average of the security's price with
the security's price itself (or between several moving averages).

Open-source Skript

Ganz im Spirit von TradingView hat der Autor dieses Skripts es als Open-Source veröffentlicht, damit Trader es besser verstehen und überprüfen können. Herzlichen Glückwunsch an den Autor! Sie können es kostenlos verwenden, aber die Wiederverwendung dieses Codes in einer Veröffentlichung unterliegt den Hausregeln. Sie können es als Favoriten auswählen, um es in einem Chart zu verwenden.

Haftungsausschluss

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Möchten Sie dieses Skript auf einem Chart verwenden?

////////////////////////////////////////////////////////////
//  Copyright by HPotter v1.0 21/05/2014
// This function is an Pine version of the moving average described in
// the January, 1998 issue of S&C magazine, p.57, "Smoothing Techniques
// for More Accurate Signals", by Tim Tillson. It is translated from the
// MetaStock code presented in the article. The function uses a version
// of the XAverage, written by me, which allows variables as inputs.
// The most popular method of interpreting a moving average is to compare
// the relationship between a moving average of the security's price with
// the security's price itself (or between several moving averages).
////////////////////////////////////////////////////////////
study(title="T3 3 Averages", shorttitle="T3")
Length = input(5, minval=1)
hline(0, color=gray, linestyle=line)
xPrice = close
xe1 = ema(xPrice, Length)
xe2 = ema(xe1, Length)
xe3 = ema(xe2, Length)
xe4 = ema(xe3, Length)
xe5 = ema(xe4, Length)
xe6 = ema(xe5, Length)
b = 0.7
c1 = -b*b*b
c2 = 3*b*b+3*b*b*b
c3 = -6*b*b-3*b-3*b*b*b
c4 = 1+3*b+b*b*b+3*b*b
nT3Average = c1 * xe6 + c2 * xe5 + c3 * xe4 + c4 * xe3
nSlope = nT3Average - nT3Average[2]
Res1 = nSlope
Res2 = nSlope[1]
Res3 = nT3Average - nT3Average[1]
plot(iff(Res2 > 10 or Res3 > 10,na, Res1), color=blue, title="Slope")
plot(iff(Res2 > 10 or Res3 > 10,na, Res2), color=red, title="Slope2")
plot(iff(Res2 > 10 or Res3 > 10,na, Res3), color=green, title="Slope1per")

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