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).

Script de código aberto

Dentro do verdadeiro espírito TradingView, o autor deste script publicou ele como um script de código aberto, para que os traders possam compreender e checar ele. Um viva ao autor! Você pode usá-lo gratuitamente, mas a reutilização deste código em uma publicação é regida pelas Regras da Casa. Você pode favoritá-lo para usá-lo em um gráfico.

Aviso legal

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Quer usar esse script no gráfico?

////////////////////////////////////////////////////////////
//  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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