UCS_Value Bands — Indikator von UDAY_C_Santhakumar

Value bands kc standard deviations fair oversold overbought

value bands kc standard deviations fair oversold overbought

This Indicator is yet another variation of KC. Inspired from Value Charts webinar. I have seen their videos on youtube. What appears to be a variation of KC.
They use 12 bands Showing the zone, and different MA for different timeframes.

You can get this indicator close to accuracy by changing the inputs (ATR) and (Deviations)

This also can be used with the triple ATR setup - Change the values to EMA to desired value. To obtain the First band to plot @ 1, Change the Band deviation to 0.25.

Also can be used as as the Acceleration Band. With Current Settings, the Third Band will plot the Acceleration band.

List of All my Indicators -
Lycka Till

Uday C Santhakumar

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?

// Created by UCSgears
// This is a variation to what value charts uses. 
// I have not seen their indicator code, But This is my interpretation, After all its just an indicator. 

study(title="UCS_Value Band", shorttitle="VB_UCS", overlay=true)
source = close
length = input(21, minval=1, title = "EMA Length")
atrlen = input(5, minval=1, title = "ATR Length")
atrlen2 = round(atrlen*1.5)
atrlen3 = atrlen*2

mult = input(0.2, minval=0.1, title = "Band Deviation")
ma = sma(source, length)
range =  tr
rangema1 = ema(range, atrlen)
rangema2 = ema(range, atrlen2)
rangema3 = ema(range, atrlen3)

up1 = ma + rangema1 * mult*1
up2 = ma + rangema1 * mult*2
up3 = ma + rangema1 * mult*3
up4 = ma + rangema1 * mult*4
up5 = ma + rangema2 * mult*5
up6 = ma + rangema2 * mult*6
up7 = ma + rangema2 * mult*7
up8 = ma + rangema2 * mult*8
up9 = ma + rangema3 * mult*9
up10 = ma + rangema3 * mult*10
up11 = ma + rangema3* mult*11
up12 = ma + rangema3 * mult*12

dn1 = ma - rangema1 * mult*1
dn2 = ma - rangema1 * mult*2
dn3 = ma - rangema1 * mult*3
dn4 = ma - rangema1 * mult*4
dn5 = ma - rangema2 * mult*5
dn6 = ma - rangema2 * mult*6
dn7 = ma - rangema2 * mult*7
dn8 = ma - rangema2 * mult*8
dn9 = ma - rangema3 * mult*9
dn10 = ma - rangema3 * mult*10
dn11 = ma - rangema3* mult*11
dn12 = ma - rangema3 * mult*12

plot(ma, color=aqua, title="Basis")

color1 = green
color2 = yellow
color3 = red

//plot(up1, color = color1)
//plot(up2, color = color1)
//plot(up3, color = color1)
u4 = plot(up4, color = color1, title="Fair Value Upper")
//plot(up5, color = color2)
//plot(up6, color = color2)
//plot(up7, color = color2)
u8 = plot(up8, color = color2, title="High Value Upper")
//plot(up9, color = color3)
//plot(up10, color = color3)
//plot(up11, color = color3)
u12 = plot(up12, color = color3, title="Extreme Value Upper")

//plot(dn1, color = color1)
//plot(dn2, color = color1)
//plot(dn3, color = color1)
d4 = plot(dn4, color = color1, title="Fair Value Lower")
//plot(dn5, color = color2)
//plot(dn6, color = color2)
//plot(dn7, color = color2)
d8 = plot(dn8, color = color2, title="High Value Lower")
//plot(dn9, color = color3)
//plot(dn10, color = color3)
//plot(dn11, color = color3)
d12 = plot(dn12, color = color3, title="Extreme Value Lower")

fill (u4,d4,green)
fill (u4,u8, yellow)
fill (d4,d8, yellow)
fill (u8,u12, red)
fill (d8,d12, red)