Yacine MA Bands Mod — TheYangGuizi作成のインジケーター

ema rma vwma wma bands tema tilson yacine simplemovingaverage

Mashed together the ema-bands from IvanLabrie with some moving average script stuff from ChrisMoody and LazyBear and this is the result. Credit goes to them, 'cause I don't know to how to code tbh. Just copy/pasted stuff untill I got the result I wanted.

Bands work as support/resistance among other things. You can use them to trade breakouts or reversals or whatever.
Combining them with a momentum indicator would probably be useful for timing divergence or OB/OS and stuff like that.

Included moving average types;

SMA
EMA
RMA
WMA
VWMA
HullMA
TilsonMA
TEMA

Not sure if all of them works as they should... y'know since I cant code/script. Looks good to me though.¨

Default should work pretty good for the DAX, But you'll probably want to fiddle a bit with the settings.

Here's a pic of how they can be used. Ofc everything looks simple in hindsight, but you get the point.

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チャートでこのスクリプトを利用したいですか？

study(title="Yacine Ema Bands Mod", shorttitle="MA Bands", overlay=true)
src = close
len = input(125, minval=1, title = "EMA Length")
atrlen = input(500, minval=1, title = "ATR Length")
mult1 = input(3.2, minval=1, title = "Deviation multiplier 1")
mult2 = input(6.4, minval=1, title = "Deviation multiplier 2")
mult3 = input(9.5, minval=1, title = "Deviation multiplier 3")

range =  tr
//-----------------------------------------------
factorT3 = input(defval=7, title="Tilson T3 Factor - *.10 - so 7 = .7 etc.", minval=0) 
atype = input(1,minval=1,maxval=9,title="1=SMA, 2=EMA, 3=WMA, 4=HullMA, 5=VWMA, 6=RMA, 7=TEMA, 8=ZeroLagEma, 9=Tilson T3")
//hull ma definition
hullma = wma(2*wma(src, len/2)-wma(src, len), round(sqrt(len)))
//TEMA definition
ema1 = ema(src, len)
ema2 = ema(ema1, len)
ema3 = ema(ema2, len)
tema = 3 * (ema1 - ema2) + ema3

//hull ma definition B
hullmab = wma(2*wma(range, atrlen/2)-wma(range, atrlen), round(sqrt(len)))
//TEMA definition B
ema1b = ema(range, atrlen)
ema2b = ema(ema1b, len)
ema3b = ema(ema2b, len)
temab = 3 * (ema1b - ema2b) + ema3b
//Tilson T3
factor = factorT3 *.10
gd(src, len, factor) => ema(src, len) * (1 + factor) - ema(ema(src, len), len) * factor 
t3(src, len, factor) => gd(gd(gd(src, len, factor), len, factor), len, factor) 
tilT3 = t3(src, len, factor) 
 
//Tilson T3 B
factorb = factorT3 *.10
gdb(src, len, factor) => ema(src, len) * (1 + factor) - ema(ema(src, len), len) * factor 
t3b(src, len, factor) => gd(gd(gd(src, len, factor), len, factor), len, factor) 
tilT3b = t3(range, atrlen, factor) 

//ZeroLag by LazyBear
ema1z=ema(src, len)
ema2z=ema(ema1z, len)
d=ema1z-ema2z
zlema=ema1z+d
//ZeroLag by LazyBearB
ema1zB=ema(range, atrlen)
ema2zB=ema(ema1zB, len)
dB=ema1zB-ema2zB
zlemab=ema1zB+dB

avg = atype == 1 ? sma(src,len) : atype == 2 ? ema(src,len) : atype == 3 ? wma(src,len) : atype == 4 ? hullma : atype == 5 ? vwma(src, len) : atype == 6 ? rma(src,len) : atype == 7 ? tema :atype == 8 ? zlema: tilT3

avg2 = atype == 1 ? sma(range, atrlen) : atype == 2 ? ema(range, atrlen) : atype == 3 ? wma(range, atrlen) : atype == 4 ? hullmab : atype == 5 ? vwma(range, atrlen) : atype == 6 ? rma(range, atrlen) : atype == 7 ? temab : atype == 8 ? zlemab: tilT3b

//----------------------------------------------- blah bleh

ma = avg

rangema = avg2

up1 = ma + rangema * mult1
up2 = ma + rangema * mult2
up3 = ma + rangema * mult3

dn1 = ma - rangema * mult1
dn2 = ma - rangema * mult2
dn3 = ma - rangema * mult3

middle = plot(ma, color=black)

color1 = gray
color2 = black
color3 = red

//plot(up1, color = color1)
//plot(up2, color = color1)
//plot(up3, color = color1)
u4 = plot(up1, color = color1)
//plot(up5, color = color2)
//plot(up6, color = color2)
//plot(up7, color = color2)
u8 = plot(up2, color = color2)
//plot(up9, color = color3)
//plot(up10, color = color3)
//plot(up11, color = color3)
u12 = plot(up3, color = color3)

//plot(dn1, color = color1)
//plot(dn2, color = color1)
//plot(dn3, color = color1)
d4 = plot(dn1, color = color1)
//plot(dn5, color = color2)
//plot(dn6, color = color2)
//plot(dn7, color = color2)
d8 = plot(dn2, color = color2)
//plot(dn9, color = color3)
//plot(dn10, color = color3)
//plot(dn11, color = color3)
d12 = plot(dn3, color = color3)

fill(middle, u4, color=gray, transp=90, title="Middle Lower Fill")
fill(middle, d4, color=gray, transp=90, title="Middle Lower Fill")
fill(d4, d8, color=green, transp=90, title="Over Sold Fill")
fill(d8, d12, color=green, transp=90, title="Over Sold Fill Down")
fill(u4, u8, color=red, transp=90, title="Over Bought Fill")
fill(u8, u12, color=red, transp=90, title="Over Bought Fill Up")