Sakura 2The oscillator uses an adaptive moving average as input to another RSI oscillator and is designed to provide a way to minimize the impact of corrections on the output of the oscillator without significant lag.
An additional trigger line is present in order to provide entry points from intersections between the oscillator and the trigger line.
I'll be working on the code to add and describe the privileges and the best settings
Settings
=Lengthy : period of the oscillator
=Power : controls the sensitivity of the oscillator to retracements, with higher values minimizing the sensitivity to retracements.
=Src : source input of the indicator
The indicator also includes the following graphical settings:
=Gradient : Determines the color mode to use for the gradient, options include "Red To Green", "Red To Blue" and "None", with "None" displaying no gradient.
=Color fill : Determines whether to fill the area between the oscillator and the trigger line or not, by default "On".
=Circles : Determines whether to show circles highlighting the crosses between the oscillator and the trigger line.
Arsi
Rainbow Adaptive RSI [LuxAlgo]The following oscillator uses an adaptive moving average as an input for another RSI oscillator and aims to provide a way to minimize the impact of retracements over the oscillator output without introducing significant lag.
An additional trigger line is present in order to provide entry points from the crosses between the oscillator and the trigger line. More details are given below.
Settings
Length : period of the oscillator
Power : controls the sensitivity of the oscillator to retracements, with higher values minimizing the sensitivity to retracements.
Src : source input of the indicator
The indicator also includes the following graphical settings:
Gradient : Determines the color mode to use for the gradient, options include "Red To Green", "Red To Blue" and "None", with "None" displaying no gradient.
Color fill : Determines whether to fill the area between the oscillator and the trigger line or not, by default "On".
Circles : Determines whether to show circles highlighting the crosses between the oscillator and the trigger line.
Usage
The indicator can be used like any normalized oscillator, but unlike a classical RSI, it does not converge toward 50 with higher length values. This is caused by the RSI using a smooth input.
The power setting will minimize the impact of certain variations on the oscillator:
Here the oscillator at the bottom uses a power value of 1.5.
The trigger line is a smoothed RSI using an EMA as input, and it won't remain as near to 100 and 0 as the main oscillator. Using a moving average of the main oscillator as a trigger line would create faster crosses, but this approach allows us to have no crosses when a retracement is present.
Details
As previously discussed the main oscillator uses an adaptive moving average as input; this adaptive moving average is computed using a smoothing factor derived from an RSI oscillator, a similar adaptive moving average known as ARSI, but unlike ARSI which uses a classical RSI of the closing price for the calculation of the smoothing factor, our smoothing factor makes use of RSI on the adaptive moving average error, which provides a higher level of adaptiveness.
Asymmetrical RSIThis indicator was originally developed by Sylvain Vervoort (Stocks & Commodities, V.26:11 (October, 2008): "ARSI, The Asymmetrical RSI").
Customizable MACDCustomizable MACD - let's tune! This approach let you specify not only lengths and price source but also a type of used movings for the fast, slow and signal lines.
Here is the list of all available movings:
ALMA (Arnaud Legoux)
ARSI (Adaptive RSI)
DEMA (Double Exponential)
EMA (Exponential)
FRAMA ( Fractal Adaptive)
HMA (Hull)
LSQMA (Least Squares)
LWMA (Linear Weighted)
MD (McGinley Dynamic)
REMA (Regularized Exponential)
RMA (EMA with alpha = length - 1)
SMA (Simple)
SMMA (Smoothed)
TEMA (Triple Exponential)
TMA (Triangular)
T3
VIDYA (Variable Index Dynamic)
VWMA ( Volume Weighted)
WMA (Weighted)
WWMA (Welles Wilder’s Moving Average, EMA with alpha = 1 / length)
ZLEMA (Zero Lag Exponential)
Customizable Multiple Moving AveragesCustomizable Multiple Moving Averages - more than twenty movings available in one script!
Besides source/period customization you can specify one of the following moving averages for every plot:
ALMA (Arnaud Legoux)
ARSI (Adaptive RSI)
DEMA (Double Exponential)
EMA (Exponential)
FRAMA (Fractal Adaptive)
HMA (Hull)
LSQMA (Least Squares)
LWMA (Linear Weighted)
MD (McGinley Dynamic)
REMA (Regularized Exponential)
RMA (EMA with alpha = length - 1)
SMA (Simple)
SMMA (Smoothed)
TEMA (Triple Exponential)
TMA (Triangular)
T3
VIDYA (Variable Index Dynamic)
VWMA (Volume Weighted)
WMA (Weighted)
WWMA (Welles Wilder’s Moving Average, EMA with alpha = 1 / length)
ZLEMA (Zero Lag Exponential)