As we know, %b is a measure of where prices are in relation to the outer Bollinger bands and therefore strongly related to volatility. This can get choppy, though.
Vervoort smoothed this using Zero lag TEMA of custom Heiken-ashi recalculated prices. According to Vervoort, "Smoothed Vervoort %b is often a leading indicator making smooth moves with clear turning points. Normal and hidden divergent moves make it an ideal tool to help find entry and exit points while watching price moving between the Bollinger bands."
More info:
drive.google.co...XVHRXZPek0/edit?usp=sharin...
List of my other indicators:
- Chart: - GDoc: docs.google.com...ByMEvm5MLo/edit?usp=sharin...
Vervoort smoothed this using Zero lag TEMA of custom Heiken-ashi recalculated prices. According to Vervoort, "Smoothed Vervoort %b is often a leading indicator making smooth moves with clear turning points. Normal and hidden divergent moves make it an ideal tool to help find entry and exit points while watching price moving between the Bollinger bands."
More info:
drive.google.co...XVHRXZPek0/edit?usp=sharin...
List of my other indicators:
- Chart: - GDoc: docs.google.com...ByMEvm5MLo/edit?usp=sharin...
List of my free indicators: bit.ly/1LQaPK8
List of my indicators at Appstore: blog.tradingview.com/?p=970
List of my indicators at Appstore: blog.tradingview.com/?p=970
// // @author LazyBear // List of all my indicators: // https://docs.google.com/document/d/15AGCufJZ8CIUvwFJ9W-IKns88gkWOKBCvByMEvm5MLo/edit?usp=sharing // study("Vervoort Modified BB%b [LazyBear]", shorttitle="VMBB%b_LB") calc_tema(s, length) => ema1 = ema(s, length) ema2 = ema(ema1, length) ema3 = ema(ema2, length) 3 * (ema1 - ema2) + ema3 length=input(18, minval=2, maxval=100, title="%B Length") temaLength=input(8, title="TEMA Length") stdevHigh=input(1.6, title="Stdev High") stdevLow=input(1.6, title="Stdev Low") stdevLength=input(200, title="Stdev Length") haOpen=(ohlc4[1]+nz(haOpen[1]))/2 haC=(ohlc4+haOpen+max(high, haOpen)+min(low, haOpen))/4 tma1 = calc_tema(haC,temaLength) tma2 = calc_tema(tma1, temaLength) diff = tma1-tma2 zlha = tma1+diff percb = (calc_tema(zlha,temaLength)+2*stdev(calc_tema(zlha,temaLength),length) - wma(calc_tema(zlha,temaLength),length))/(4*stdev(calc_tema(zlha,temaLength),length))*100 ub=50+stdevHigh*stdev(percb,stdevLength) lb=50-stdevLow*stdev(percb,stdevLength) ul=plot(ub, color=red, title="Stdev+") ll=plot(lb, color=green, title="Stdev-") plot((ub+lb)/2, color=blue, style=3, title="Stdev Mid") fill(ul, ll, red) plot(percb, linewidth=2, color=maroon, title="SVE %b")