xel_arjona

GEOMETRIC STANDARD DEVIATION BANDS v1 by @XeL_Arjona

GEOMETRIC STANDARD DEVIATION BANDS
Ver.1 By Ricardo M Arjona @XeL_Arjona

DISCLAIMER:

The Following indicator/code IS NOT intended to be a formal investment advice or recommendation by the author, nor should be construed as such. Users will be fully responsible by their use regarding their own trading vehicles/assets.

The embedded code and ideas within this work are FREELY AND PUBLICLY available on the Web for NON LUCRATIVE ACTIVITIES and must remain as is.


WHAT'S THIS?

This IS NOT the wheel "Re-Invention"... This is exactly what the name says: A pair of Envelope Bands to measure "volatility", constructed at statistical relation from within price series and their Rolling back MEAN (Simple Moving Average). YES, What Mr. Bollinger did and put it's name to this simple, cleaver and popular formula.

This time, I took the time to make another simple mod, but seems to me to be quite functional in REAL VOLATILE assets like in the example chart: TO USE THEIR GEOMETRIC MODE!!

Cheers!
Any feedback or public modification(s) are quite welcome to the community....!

@XeL_Arjona
Apr 28 2016

Skrip open-source

Dalam semangat TradingView, penulis dari skrip ini telah mempublikasikannya ke sumber-terbuka, maka trader dapat mengerti dan memverifikasinya. Semangat untuk penulis! Anda dapat menggunakannya secara gratis, namun penggunaan kembali kode ini dalam publikasi diatur oleh Tata Tertib. Anda dapat memfavoritkannya untuk digunakan pada chart

Pernyataan Penyangkalan

Informasi dan publikasi tidak dimaksudkan untuk menjadi, dan bukan merupakan saran keuangan, investasi, perdagangan, atau rekomendasi lainnya yang diberikan atau didukung oleh TradingView. Baca selengkapnya di Persyaratan Penggunaan.

Inggin menggunakan skrip ini pada chart?
//@version=2
study("GEOMETRIC STANDARD DEVIATION BANDS v1 by @XeL_Arjona", shorttitle="gSDB", overlay=true)
src = input(title="Candle Source:",type=source,defval=close)
p   = input(title="Rollback Mean:",defval=21)
s   = input(title="Deviation Envelope:",defval=2)
et  = input(title="EnvTYPE: [1]Cl | [3]Avg | [3]HiLo:",defval=2,minval=1,maxval=3)
// VARIABLES
cl = log(src)
hi = iff(et==1, log(src), iff(et==2,log(high), log(avg(src,high))))
lo = iff(et==1, log(src), iff(et==2,log(low), log(avg(src,low))))
// FUNCTIONS
// Standard Deviation from Custom Mid Point (Custom Bollinger)
cStdDev(array,mid,lb,mult,dir) =>
    std = stdev(array,lb)
    d = dir ? 1 : -1
    band = mid + d * mult * std
mean    = exp(sma(cl,p))
up      = exp(cStdDev(hi,sma(hi,p),p,s,true))
dn      = exp(cStdDev(lo,sma(lo,p),p,s,false))
// PLOT DIRECTIVES
plot(mean,color=blue,transp=0)
uband = plot(up,color=blue,transp=55)
dband = plot(dn,color=blue,transp=55)
fill(uband,dband,color=navy,transp=96)