What is an Envelope?
In technical analysis, an "envelope" typically refers to a pair of upper and lower bounds that surrounds price action to help characterize extreme overbought and oversold conditions. Envelopes are often derived from a simple moving average (SMA) and are placed at a predefined distance above and below the SMA from which they were generated. However, envelopes do not necessarily need to be derived from a moving average; they can be derived from any estimator, including a kernel estimator such as Nadaraya-Watson.
How to use this indicator?
Overall, this indicator offers a high degree of flexibility, and the location of the envelope's bands can be adjusted by (1) tweaking the parameters for the Rational Quadratic Kernel and (2) adjusting the lookback window for the custom ATR calculation. In a trending market, it is often helpful to use the Nadaraya-Watson estimate line as a floating SR and/or reversal zone. In a ranging market, it is often more convenient to use the two Upper Bands and two Lower Bands as reversal zones.
How are the Upper and Lower bounds calculated?
In this indicator, the Rational Quadratic (RQ) Kernel estimates the price value at each bar in a user-defined lookback window. From this estimation, the upper and lower bounds of the envelope are calculated based on a custom ATR calculated from the kernel estimations for the high, low, and close series, respectively. These calculations are then scaled against a user-defined multiplier, which can be used to further customize the Upper and Lower bounds for a given chart.
How to use Kernel Estimations like this for other indicators?
Kernel Functions are highly underrated, and when calibrated correctly, they have the potential to provide more value than any mundane moving average. For those interested in using non-repainting Kernel Estimations for technical analysis, I have written a Kernel Functions library that makes it easy to access various well-known kernel functions quickly. The Rational Quadratic Kernel is used in this implementation, but one can conveniently swap out other kernels from the library by modifying only a single line of code. For more details and usage examples, please refer to the Kernel Functions library located here:
🤖 Discord w/ Deep Learning Bots: discord.gg/djXT5sAPfQ
⏩ LinkedIn: www.linkedin.com/in/justin-dehorty/
❤️ Patreon: www.patreon.com/jdehorty
I sann TradingView-anda har författaren publicerat detta skript med öppen källkod så att andra handlare kan förstå och verifiera det. Hatten av för författaren! Du kan använda det gratis men återanvändning av den här koden i en publikation regleras av våra ordningsregler. Du kan ange den som favorit för att använda den i ett diagram.
Informationen och publikationerna är inte avsedda att vara, och utgör inte heller finansiella, investerings-, handels- eller andra typer av råd eller rekommendationer som tillhandahålls eller stöds av TradingView. Läs mer i Användarvillkoren.