This oscillator is a time derivative of the , plotted as a histogram and serving as a . The derivative is calculated explicitly by means of local polynomial regression. It is designed to provide minimum false and premature buy/sell signals compared to many traditional momentum indicators such as Momentum, , .
Potential trading signals provided by the Delta-RSI Oscillator include:
- zero crossing (negative-to-positive as a sign and positive-to-negative sign as a signal),
- change of direction (consider going long if the oscillator starts to advance, and short otherwise).
In addition, the strength of a particular trend can be estimated by looking at the Delta-RSI value (positive D-RSI in case of the uptrend, and negative in case of the downtrend).
Choosing the model Parameters:
-RSI Length: The timeframe of the that is being differentiated.
- Frame Length: The length of the lookback frame used for local regression.
- Polynomial Order: The order of the local polynomial function.
Longer frames and lower order of polynomials will result in a "smoother" D-RSI, but at the expense of greater lag. Increasing the polynomial order while maintaining the frame length will reduce lag while producing more variance. The values set as default (Length=18, Order=2) were found to provide optimum the variance/lag tradeoff. However, other options (e.g., Length=35, Order=3) can also work well.
Relationship with other methods:
When developing this indicator, I was inspired by Connie Brown’s Derivative Oscillator. The latter pursues the same goal but evaluates the derivative by means of triple smoothing. This paves the way for more clear interpretation and easier tuning of model parameters.
In true TradingView spirit, the author of this script has published it open-source, so traders can understand and verify it. Cheers to the author! You may use it for free, but reuse of this code in a publication is governed by House Rules. You can favorite it to use it on a chart.