ucsgears

UCS_TTM - Reversion Bands

Ok, Here we go - Version 1 of TTM Reversion Band goes live.

Link to TTM Reversion Band - http://www.tradethemarkets.com/products/...

Link to TTM Reversion Band Guide - http://kb.simplertrading.com/reversion-b...

John Carters Mastering the trade - http://www.amazon.com/Mastering-Trade-Se...
For the amount of information this has, the price tag is not hefty.

John's RTM Chapter Synopsis - http://www.tradethemarkets.com/public/ma...

What did I modify?

1. Automated the Daily + and Intraday settings. So Switching to intraday will change the setting automatically.

2. Added text callouts for RTM condition
a. John Carter's Indicator
b. Slope Based (my addition).


Future Improvement Planned.

1. Will Convert this into a system based on John's Indicator from TS .

2. Custom Options for Slope and MA setting for Trade filter.

Script de código abierto

Siguiendo el verdadero espíritu de TradingView, el autor de este script lo ha publicado en código abierto, para que los traders puedan entenderlo y verificarlo. ¡Un hurra por el autor! Puede utilizarlo de forma gratuita, aunque si vuelve a utilizar este código en una publicación, debe cumplir con lo establecido en las Normas internas. Puede añadir este script a sus favoritos y usarlo en un gráfico.

Exención de responsabilidad

La información y las publicaciones que ofrecemos, no implican ni constituyen un asesoramiento financiero, ni de inversión, trading o cualquier otro tipo de consejo o recomendación emitida o respaldada por TradingView. Puede obtener información adicional en las Condiciones de uso.

¿Quiere utilizar este script en un gráfico?
// Created by UCSgears
// Adopted from TTM Reversion Bands
// Added a little touch


study(title="UCS_TTM - Reversion Bands", shorttitle="UCS_TTM-RTM", overlay=true)

// Defining Timeframe and Parameters
a = isdwm ? 1 : 0
b = isintraday ? 1 : 0

// TTM - Revertion to the Mean Band - INPUTS
z = input(0, title = "Offset")
usesl = input(true, title = "RTM against Slope (UCSgears Addition)", type=bool)
length = a == 1 ? 13 : 25
atrlen = a == 1 ? 13 : 25
mult = a == 1 ? 1.5 : 2.5
range =  tr

// Calculations
ma = ema(close, length)
rangema = ema(range, atrlen)
upper = ma + rangema * mult
lower = ma - rangema * mult

// All Plots
plot(upper, color=purple, title="Upper Channel", offset = z)
plot(ma, color=red, title="Middle Line", offset = z)
plot(lower, color=purple, title="Lower Channel", offset = z)

//Slope Definition
slope = (ma - ma[5])/5

sh = highest(slope, 250)
sl = lowest(slope, 250)
sm = 0 /////////////////////////////////////////////////////////////////////////////////////////////////(sh+sl)/2

pup = slope > sm ? 1 : 0
ndn = slope < sm ? 1 : 0

plotshape(usesl ? pup : na, style = shape.triangleup, color = green, location = location.bottom, title = "Positive Slope", transp = 0)
plotshape(usesl ? ndn : na, style = shape.triangledown, color = red, location = location.top, title = "Negative Slope", transp = 0)

// Condition for Dots
dota = (high > upper) and (high < upper)[1] ? upper : na
dotb = (low  < lower) and (low  > lower)[1] ? lower : na
dotbsp = pup == 1 ? dotb : na
dotasn = ndn == 1 ? dota : na

plotshape(usesl ? dotasn : dota, style = shape.circle, location = location.abovebar, color = fuchsia, title = "RTM UP", text = "RTM - UP \n SHORT", textcolor = fuchsia, transp = 0)
plotshape(usesl ? dotbsp : dotb, style = shape.circle, location = location.belowbar, color = blue, title = "RTM Down", text = "RTM - DOWN \n LONG", textcolor = blue, transp = 0)