The Cyber Cycle Indicator, developed by John Ehlers, is used for isolating the cycle component of the market from its trend counterpart. Unlike other oscillators like RSI, Cyber Cycle Indicator's wave has a variable amplitude.
Use the osc/signal crossover for entry/exit points. You can enable highlighting the crossovers by using region fills (via options page). I have also added an option to color the bars based on this.
Actually I have lot of Ehlers indicators in my to-publish backlog, will try to prioritize them over the others in the pipeline. Lets have an Ehlers week for indicators :)
More info:
Cybernetic Analysis for Stocks and Futures
List of my public indicators: bit.ly/1LQaPK8
List of my app-store indicators: blog.tradingview.com/?p=970
Use the osc/signal crossover for entry/exit points. You can enable highlighting the crossovers by using region fills (via options page). I have also added an option to color the bars based on this.
Actually I have lot of Ehlers indicators in my to-publish backlog, will try to prioritize them over the others in the pipeline. Lets have an Ehlers week for indicators :)
More info:
Cybernetic Analysis for Stocks and Futures
List of my public indicators: bit.ly/1LQaPK8
List of my app-store indicators: blog.tradingview.com/?p=970
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 my public indicators: http://bit.ly/1LQaPK8
// List of my app-store indicators: http://blog.tradingview.com/?p=970
//
study("Ehlers Cyber Cycle Indicator [LazyBear]", shorttitle="ECCI_LB", overlay=false, precision=3)
src=input(hl2, title="Source")
alpha=input(.07, title="Alpha")
smooth=(src+2*src[1]+2*src[2]+src[3])/6
cycle_=(1-.5*alpha)*(1-.5*alpha)*(smooth-2*smooth[1]+smooth[2])+2*(1-alpha)*nz(cycle_[1])-(1-alpha)*(1-alpha)*nz(cycle_[1])
cycle=(n<7)?(src-2*src[1]+src[2])/4:cycle_
t = cycle[1]
plot(0, title="ZeroLine", color=gray)
fr=input(true, title="Fill Osc/Trigger region")
duml=plot(fr?(cycle>t?cycle:t):na, style=circles, linewidth=0, color=gray, title="Dummy")
cmil=plot(cycle, title="CyberCycle",color=blue)
tl=plot(t, title="Trigger",color=green)
fill(cmil, duml, color=red, transp=50, title="NegativeFill")
fill(tl, duml, color=lime, transp=50, title="PositiveFill")
ebc=input(false, title="Color bars?")
bc=ebc?(cycle>0? (cycle>t?lime:(cycle==t?gray:green)): (cycle<t?red:orange)):na
barcolor(bc)