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Tìm kiếm tập lệnh với "美联储9月降息25个基点"

Easy Directional Movement Index Nothing more than a graphical tweak for the integrated Directional movement index (DMI). The purpose is to make the reading of the DMI easier and more immediate. The area between DI+ and DI- is filled, and the indicator's range in divided into 4 sections, each of them representing a different price tendency: - When ADX line is inside the red colored area (0-25), the market is in a ranging phase. - When inside the aqua colored area (25-50), there is a trend. - When inside the blue colored area (50-75), there is a strong trend - When inside the navy colored area (75-100), there is an extremely strong trend. However keep in mind that these are default levels that may be not always significant. You can change them from the script settings as you prefer, to better tweak your analysis. Please support my work and follow me if you like my scripts. Many more of them are coming in the future. @Bezzus

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Ichimoku with Correct Displacement The default Ichimoku Cloud by TradingView is strange. The kumo is only displaced 25 periods forward, and the chikou is displaced 25 periods back. This is because TradingView had the correct value for displacement (26), but they decided to subtract this displacement by 1 when actually drawing the kumo and add 1 when drawing the chikou. This script fixes this and allows for easier customization of each line in the Ichimoku.

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của chartsandfigures

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MACD At Scales with Alerts I use the horizontal scale lines on the MACD indicator as part of my scalping strategy along with other indicators like RSI/EMA and Market Cipher B when trading BTC I am looking for a cross above or below the 12.5 and 25 horizontal scale lines, along with lining up other indicators I set my alerts on the 5 min TF and look to the 15 and 30 min TF's for further confirmation. I have find the scale lines to be very useful for visual reference of the crosses, above/below 25 lines is mostly a safer trade, crosses above/below 12.5 lines can have more risk, crosses between 0 baseline and 12.5 can have a higher return but have much more risk. Don't ever use just this indicator by itself, you must always have at least 2 indicators running This is an example of the TF's not lining up, so a entry here would be high risk This is an example of the TF's lining up, so a entry here would be less risk

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của sydneynet

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Pseudo Polynomial Channel Introduction Back when i started using pine i made a script called periodic channel who aimed to rescale an average correlated sine wave to the price...don't worked very well. So i tried to fix problems induced by the indicator without much success, i had to redo it from scratch while abandoning the idea of rescaling correlated smooth functions to the price, at that time i also received requests regarding polynomial channel, some plateformes included this indicator, this led me to the idea to estimate it in order to both respond to the periodic channel problems and the requests i received, i have tried many many things and recently i tweaked a linear extrapolation to have an approximation. Linear Extrapolation To Pseudo Polynomial Regression I could be wrong but a polynomial regression must use constant parameters in order to provide a really smooth output, at least constant for a set of time. The moving averages forms (Savitzky-Golay moving average) who smooth polynomials across a window to the data don't have such smoothness, so how to estimate a polynomial regression while having a parameter providing control over the smoothness, a response to this is by using a recursive linear extrapolation. I posted a linear extrapolation indicator long ago, i used the same formula while adding a function to morph the output and the input in the form of : morph * output + (1-morph) * input How can this provide an estimate of a polynomial regression ? Well i'm not even sure myself but if you use the output as input (morph = 1) for the linear extrapolation function you should get a rough estimate of a line, this is what i thought at first and it proved to be right Based on this observation i thought that it would be possible to get polynomial results by lowering morph, and as expected it worked well but showed a periodic pattern, this is why i smooth k in line 10. 0.9 for morph work well, higher values create sometimes smoother results but damage heavily the estimation. Parameters Morph have been introduced earlier, it control the amount of output and input the linear extrapolation should process, lower values create rougher but more stables results, if you see that the estimation is going nuts lower morph or change length, also lower length if you increase morph . High overshoot, morph to 0.8 can help have a better estimation at the cost of less smoothness. Length control the indicator smoothing, this parameter differ heavily from other filters, therefore low values can create mid/long term smoothing, it can also depend on which market instrument you are applying it, so there are no fixed optimal length. Mult control how spread the bands are, to do so mult multiply the cumulative mean error, you can change this error measurement by anything you want like standard deviation/atr/range but take into account that you may create a separate parameter to control the error instead of length . Mult can be a float and like length can have different optimal values depending on the market the indicator is applied to. Flatten do exactly what is name imply, it flatten the overall output to have a better estimation, can be a float. The result is less smooth. Flatten = 2 More Exemples BTCUSD length = 25 and mult = 4 XPDUSD length = 25 and mult = 1 ALPHABET length = 6 and morph = 0.99 Conclusion I tried to estimate a polynomial channel by using recursion in the linear extrapolation function. This build is way more stable than the periodic channel but its still a bit inaccurate in my opinion. I hope this code can still help someone build something really nice, if so share your results :) I apologize for those expecting a legit polynomial channel build but i really don't know how to do that, as i said parameters for the regression must be constants, i hope it still fine :) Thanks for reading !

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của alexgrover

Modified Gann HiLo Activator Introduction The gann hilo activator is a trend indicator developed by Robert Krausz published into W. D. Gann Treasure Discovered: Simple Trading Plans for Stocks & Commodities . This indicator crate a trailing stop aiming to show the direction of the trend. This indicator is fairly easy to compute and dont require lot of skills to understand. First we calculate the simple moving average of both price high and price low, when the close price is higher than the moving average of the price high the indicator return the moving average of the price low, else the indicator return the moving average of the price high if the close price is lower than the moving average of the price low. My indicator add a different calculation method in order to avoid whipsaw trades as well as adding significance to the moving average length. A Median method has been added to provide more robustness. The Indicator The indicator is a simple trailing stop aiming to show the direction of the trend. The indicator use a different source instead of the price high/low for its calculation. The first method is the "SMA" method which like the classic hilo indicator use a simple moving average for the calculation of the indicator. Sma Method with length = 25 The "Median" use a moving median instead of a simple moving average, this provide more robustness. Median Method with length = 25 The shape is less curved and the indicator can sometimes avoid whipsaw with high's length periods. Mult Parameter The mult parameter is a parameter set to be lower or equal to 1 and greater or equal to 0. High values allow the indicator to be far from the price thus avoiding whipsaw trades, lower ones lower the distance from the price. A mult parameter of 0.1 approximate the original hilo indicator. In blue the indicator with mult = 0.1 and in radical red the original hilo activator. Conclusion The modifications allow more control over the indicator as well as adding more robustness while the original one is destined to fail when market price is more complex. Thanks for reading :) For any questions/suggestions feel free to pm me

Chỉ báo Pine Script®

của alexgrover

Average Candle Length This script is designed to show you the average candle size in pips (wick to wick) for however many bars you choose (20 is default). The idea is that if the average candle size for the last 20 bars is, let's say 25, you would probably not want to set your stop loss less than 25 because it is more likely to get hit. if you find this script helpful, tips and donations are always appreciated (venmo @rick-munoz) :)

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Future Least Squares Moving Average //+------------------------------------------------------------------+ // | Future Least Squares Moving Average | // | 未来予測LSMA | // | Ver.1.0 | // | Copyright Sakura | //+------------------------------------------------------------------+ //LSMAは一時回帰直線の現在地の点の集合であるということは、未来の点を使えば未来を描けるはずというアホなことを無理やり考えました。 //結論はうまくいかなかったですので、パラメーターをいじって誤魔化しという結果に。 //それでも、先に書いてますので急激な価格変動に対処できる訳もなくといった感じになっています。 //displacementは一目に合わせたいので26固定の方向でとしたいところですが厳しいですね。 // //設定例 //SMA(25)≒FLSMA（25,7,13） //SMA(50)≒FLSMA（50,13,26） //SMA(75)≒FLSMA（75,20,26）

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How to automate this strategy for free using a chrome extension.Hey everyone, Recently we developed a chrome extension for automating TradingView strategies using the alerts they provide. Initially we were charging a monthly fee for the extension, but we have now decided to make it FREE for everyone. So to display the power of automating strategies via TradingView, we figured we would also provide a profitable strategy along with the custom alert script and commands for the alerts so you can easily cut and paste to begin trading for profit while you sleep. Step 1: You are going to need to download the Chrome Extension called AutoView. You can get the extension for free by following this link: bit.ly ( I had to shorten the link as it contains Google and TV automatically converts it to a symbol) Step 2: Go to your chrome extension page, and under the new extension you'll see a "settings" button. In the setting you will have to connect and give permission to the exchange 1broker allowing the extension to place your orders automatically when triggered by an alert. Step 3: Setup the strategy and custom script for the alerts in TradingView. The attached script is the strategy, you can play with the settings yourself to try and get better numbers/performance if you please. This following script is for the custom alerts: //@version=2 study("4All-Alert", shorttitle="Alerts") src = close len = input(4, minval=1, title="Length") up = rma(max(change(src), 0), len) down = rma(-min(change(src), 0), len) rsi = down == 0 ? 100 : up == 0 ? 0 : 100 - (100 / (1 + up / down)) rsin = input(5) sn = 100 - rsin ln = 0 + rsin short = crossover(rsi, sn) ? 1 : 0 long = crossunder(rsi, ln) ? 1 : 0 plot(long, "Long", color=green) plot(short, "Short", color=red) Now that you have the extension installed, the custom strategy and alert scripts in place, you simply need to create the alerts. To get the alerts to communicate with the extension properly, there is a specific syntax that you will need to put in the message of the alert. You can find more details about the syntax here : gist.github.com For this specific strategy, I use the Alerts script, long/short greater than 0.9 on close. In the message for a long place this as your message: Long c=order b=short c=position b=short l=200 t=market b=long q=0.01 l=200 t=market tp=13 sl=25 and for the short... Short c=order b=long c=position b=long l=200 t=market b=short q=0.01 l=200 t=market tp=13 sl=25 If you'll notice in my above messages, compared to the strategy my tp and sl (take profit and stop loss) vary by a few pips. This is to cover the market opens and spread on 1broker. You can change the tp and sl in the strategy to the above and see that the overall profit will not vary much at all. I hope this all makes sense and it is enough to not only make some people money, but to show the power of coming up with your own strategy and automating it using TradingView alerts and the free Chrome Extension AutoView. ps. I highly recommend upgrading your TradingView account so you have access to back testing and multiple alerts. There is really no reason you won't cover the cost and then some on a monthly basis using the tools provided. Best of luck and happy trading. Note: The extension currently allows for automation on 2 exchanges; 1broker and Okcoin. If you do not have accounts there, we'd appreciate you signing up using our referral links. www.okcoin.com 1broker.com

Chiến lược Pine Script®

của CryptoRox

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Power Balance Forecaster Hey trader buddy! Remember the old IBM 5150 on Wall Street back in the 80s? :) Well, I wanted to pay tribute to it with this retro-style code when MS DOS and CRT screens were the cutting edge of technology... Analysis of the balance of power between buyers and sellers with price predictions What This Indicator Does The Power Balance Forecaster indicator analyzes the relationship between buyer and seller strength to predict future price movements. Here's what it does in detail: Main Features: Power Balance Analysis: Calculates real-time percentage of buyer power vs seller power Price Predictions: Estimates next closing level based on current momentum Market State Detection: Identifies 5 different market conditions Visual Signals: Shows directional arrows and price targets How the Trading Logic Works Power Balance Calculation: Analyzes Consecutive Bars - Counts consecutive bullish and bearish bars Calculates Momentum - Uses ATR-normalized momentum to measure trend strength Determines Market State - Assigns one of 5 market states based on conditions Market States: Bull Control: Strong uptrend (75% buyer power) Bear Control: Strong downtrend (75% seller power) Buying Pressure: Bullish pressure (65% buyer power) Selling Pressure: Bearish pressure (65% seller power) Balance Area: Market in equilibrium (50/50) Prediction System: Bullish Condition: Buyer power > 55% + Positive momentum = Bullish prediction Bearish Condition: Seller power > 55% + Negative momentum = Bearish prediction Price Target: Based on ATR multiplied by timeframe factor Configurable Parameters: Analysis Sensitivity (5-50): Controls how responsive the indicator is Low values (5-15): More sensitive, ideal for scalping High values (30-50): More stable, ideal for swing trading Table Position: Choose from 9 positions to display the data table Trading Signals: Green Triangle ▲: Bullish signal, price expected to increase Green Triangle ▼: Bearish signal, price expected to decrease Dashed Line: Shows the price target projection Label: Displays the exact target value Recommended Timeframes: Lower Timeframes (1-15 minutes): Sensitivity: 10-20 Automatic Low TF mode Higher Timeframes (1 hour - 1 day): Sensitivity: 25-40 Automatic High TF mode Important Notes: Always use this indicator in combination with: Market context analysis Proper risk management Confirmation from other indicators Mandatory stop losses The indicator works best in trending markets and may be less effective during extreme consolidation periods.

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của LanfryBil

Directional Strength and Momentum Index █ OVERVIEW “Directional Strength and Momentum Index” (DSMI) is a technical analysis indicator inspired by DMI, but due to different source data, it produces distinct results. DSMI combines direction measurement, trend strength, and overheat levels into a single index, enhanced with gradient fills, extreme zones, entry signals, candle coloring, and a summary table. █ CONCEPT The classic DMI, despite its relatively simple logic, can seem somewhat chaotic due to separate +DI and -DI lines and the need for manual interpretation of their relationships. The DSMI indicator was created to increase clarity and speed up results, consolidating key information into a single index from 0 to 100 that simultaneously: - Indicates trend direction (bullish/bearish) - Measures movement strength - Identifies overheat levels - Generates ready entry signals DMI (ADX + +DI / -DI) measures trend direction and strength, but does so based solely on comparing price movements between candles. ADX shows whether the trend is orderly and growing (e.g., above 20–30), but does not assess how dynamic the movement is. DSMI, on the other hand, takes into account candle size and actual market aggression, thus showing directional momentum — whether the trend has real “fuel” to sustain or accelerate, not just whether it is orderly. The main calculation difference involves replacing True Range with candle size (high-low) and using directional EMA instead of Wilder smoothing. This allows DSMI to react faster to momentum changes, eliminating delays typical of classic DMI based on TR. This gives the trader an immediate picture of the market situation without analyzing multiple lines. █ FEATURES DSMI Main Line: - EMA(Directional Index) based on +DS and -DS - Scale 0–100, smooth color gradient depending on strength +DS / -DS: - Positive and Negative Directional Strength - Gradient fill between lines — more intense with stronger trend Extreme Zones: - Default 20 and 80 - Gradient fill outside zones Trend Strength Levels: - Weak (<10) → neutral - Moderate (up to 35) - Strong (up to 45) - Overheated (up to 55) - Extreme (>55) All levels editable Entry Signals: - Activated on crossing entry level (default 20) Or on direction change when DSMI already ≥ entry level - Highlighted background (green/red) Candle Coloring: - According to current trend Trend Strength Table: - Top-right corner - Shows current strength (WEAK/STRONG etc.) + DSMI value Alerts: - DSMI Bullish Entry - DSMI Bearish Entry █ HOW TO USE Add to Chart: Paste code in Pine Editor or find in indicator library. Settings: DSMI Parameters: - DSMI Period → default 20 - Show DSMI Line → on/off Extreme Zones: - Lower Level → default 20 - Upper Level → default 80 Trend Strength Levels: - Weak, Moderate, Strong, Overheated → adjust to strategy Trend Colors: - BULLISH → default green - BEARISH → default red - NEUTRAL → gray Entry Signals: - Show Highlight → on/off - DSMI Entry Level → default 20 Signal Interpretation: - DSMI Line: Main strength indicator. - Gradient between +DS and -DS: Visualizes side dominance. - Crossing 18 with direction confirmation → entry signal. - Extreme Zones: Potential reversal or continuation points after correction. - Table: Quick overview of current trend condition. █ APPLICATIONS The indicator works well in: - Trend-following: Enter on signal, exit on direction change or overheat. When a new trend appears, consider entering a position, preferably with a rising trend strength indicator. - Scalping/daytrading: Shorter period (7–10), lower entry level. - Swing/position: Longer period (20–30), higher entry level, extreme zones as filters. - Noise filtering: Ignores consolidation below “Weak” – increasing value e.g. to 15 highlights consolidation zones, but no signals appear there. Style Adjustment: - Aggressive strategies → shorten period and entry level - Conservative → extend period, raise entry level (25–30), watch “Overheated” “Weak” level (<10 default) → neutral; increasing it e.g. to 15 gives fewer but higher-quality signals. The Weak zone value controls the level below which no signals appear, and the gradient turns gray (often aligned with consolidation zones). Combine with: - Support/resistance levels - Fair Value Gaps (FVG) - Volume (Volume Profile, VWAP) - Other oscillators (RSI, Stochastic) █ NOTES - Works on all markets and timeframes. - Adjust period and levels to instrument volatility. - Higher entry level → fewer signals, higher quality. - Neutral color below “Weak” – avoids trading in consolidation. - Gradient and table enable quick assessment without line analysis.

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của Uncle_the_shooter

PIVOT-V.13 05-09-25 This Pine Script automatically detects pivot levels and generates buy/sell signals based on price action around those pivots. It identifies key support and resistance zones derived from previous period highs, lows, and closes, then marks optimal entry, target, and stop-loss levels on the chart. The script is designed to assist traders in systematic decision-making using pivot-based strategies. 🔍 Core Features Automatic Pivot Detection: Calculates and updates pivots in real-time using standard formulas. Smart Trade Setup: Buy Signal: Triggered when price action confirms strength above a pivot or resistance level. Sell Signal: Triggered when price action confirms weakness below a pivot or support level. Entry, Target & Stop-Loss Levels: Automatically plots potential entry points, stop-loss levels, and take-profit zones based on the nearest pivot structure. Customizable Settings: Choose pivot type and timeframe (daily, weekly, or monthly). Adjust risk ratio, stop size, and confirmation filters. Enable/disable visual labels or alerts. Visual Clarity: Clearly marks all pivot levels and trade signals on the chart with colored labels and lines. 🎯 Purpose This script helps traders quickly identify high-probability entry zones and maintain disciplined trade management by following pre-defined pivot-based rules — reducing emotional bias and enhancing consistency.

Chỉ báo Pine Script®

của noptionindex

MPI Burst Regime by CoryP1990 – Quant Toolkit The Microstructure Pressure Index (MPI) Burst Regime indicator detects rare, clustered volume bursts (Percentile + Z-score), converts them into an MPI (% of bursts over a rolling window), then signals and shades short-term up-pressure regimes only when structural filters (VWMA slope, Close > VWMA / Bollinger Upper) align. Includes Anchored VWAP end-detector to spot regime neutralization. Microstructure Pressure Index (MPI) — Burst → Cluster → Regime Why this is different Most volume tools flag single high-volume bars. MPI requires repeated bursts within a cluster window and then promotes them into a persistent regime (MPI%). This reduces noise and signals regime or campaign-style pressure rather than one-off spikes. How it works Burst gate: bar is a candidate if volume ≥ Xth percentile of recent history and/or Z-score ≥ threshold (user selectable). Clustering: require ≥ minBursts within a clusWin window to avoid lone spikes. MPI: percent of burst bars within lenMPI via SMA% or EMA%. RegimeUp: MPI ≥ mpiTrig + cluster OK + structural filters (VWMA slope, Close > VW/BB) + optional session filter. End detector: optional Session/Anchored VWAP + pin/flat/slope/volume collapse + IIP neutralization triggers regime end. Recommended settings Start: 5-minute charts. Auto-tune: ON (recommended) - script adapts windows to timeframe. If you want more sensitivity: lower mpiTrig or shorten lenMPI. To be stricter/rarer: raise pctVol and zThr, increase minBursts. Inputs Auto-adapt - toggle timeframe auto-tuning. MPI window, Percentrank lookback, Volume percentile, Z-score lookback, Z threshold, MPI trigger Bollinger (len, mult), VWMA length Structural filters: Close>VW, Close>UB, VWMA slope requirement Clustering: minBursts, clusWin and SMA% / EMA% choice for MPI Visualization: markers, shading, cooldown, confirm on close VWAP: Session / Anchored (auto/manual) and end-detector thresholds Alerts Use the built-in alerts: MPI Burst Trigger (Up), MPI Regime Active (Up), MPI Regime END (VWAP), Single Burst Bar. The indicator supports “Confirm on close” gating to avoid intrabar noise. Example - (BYND, 5min) On BYND, MPI flagged multiple clustered volume bursts hours before the vertical move and maintained a shaded up-regime as price rode the Bollinger upper band and VWMA sloped up. The regime reliably ended as VWMA flattened, volume collapsed and VWAP neutralized. What you’re looking at (walkthrough): Pre-run clustering: several green MPI markers appear before the large gap/rally... these are clustered percentile+Z bursts (not one-offs). Regime persistence: once MPI% crosses the threshold and structural filters (VWMA slope, Close>VWMA) hold, the indicator shades the regime (lime). This shading persisted through the main thrust. Price structure confirmation: price tracks the BB upper band during the push - classic accumulation → expansion behavior. Regime END: after the top, VWMA slopes down, volume collapses and VWAP conditions trend toward neutralization - end detector flags the regime end. Settings used in this demo (recommended start): Chart: 5-min (demo) Auto-Tune: ON (recommended) lenMPI = 60, lenRank = 300, pctVol = 98, zLen = 300, zThr = 1.96, mpiTrig = 25 minBursts = 3, clusWin = 10, mpiMode = SMA% confirmOnClose = true, session only = true for the screenshot Why this matters: Most volume tools flag single prints. MPI requires repeated bursts within a window and converts that density into an MPI% regime. That reduces false positives and surfaces regime or campaign-style pressure you can act upon or study. Part of the Quant Toolkit — transparent, open-source indicators for modern quantitative analysis. Built by CoryP1990.

Chỉ báo Pine Script®

của CoryP1990

Smart Money Flow Index (SMFI) - Advanced SMC [PhenLabs]📊Smart Money Flow Index (SMFI) Version: PineScript™v6 📌Description The Smart Money Flow Index (SMFI) is an advanced Smart Money Concepts implementation that tracks institutional trading behavior through multi-dimensional analysis. This comprehensive indicator combines volume-validated Order Block detection, Fair Value Gap identification with auto-mitigation tracking, dynamic Liquidity Zone mapping, and Break of Structure/Change of Character detection into a unified system. Unlike basic SMC indicators, SMFI employs a proprietary scoring algorithm that weighs five critical factors: Order Block strength (validated by volume), Fair Value Gap size and recency, proximity to Liquidity Zones, market structure alignment (BOS/CHoCH), and multi-timeframe confluence. This produces a Smart Money Score (0-100) where readings above 70 represent optimal institutional setup conditions. 🚀Points of Innovation Volume-Validated Order Block Detection – Only displays Order Blocks when formation candle exceeds customizable volume multiplier (default 1.5x average), filtering weak zones and highlighting true institutional accumulation/distribution Auto-Mitigation Tracking System – Fair Value Gaps and Order Blocks automatically update status when price mitigates them, with visual distinction between active and filled zones preventing trades on dead levels Proprietary Smart Money Score Algorithm – Combines weighted factors (OB strength 25%, FVG proximity 20%, Liquidity 20%, Structure 20%, MTF 15%) into single 0-100 confidence rating updating in real-time ATR-Based Adaptive Calculations – All distance measurements use 14-period Average True Range ensuring consistent function across any instrument, timeframe, or volatility regime without manual recalibration Dynamic Age Filtering – Automatically removes liquidity levels and FVGs older than configurable thresholds preventing chart clutter while maintaining relevant levels Multi-Timeframe Confluence Integration – Analyzes higher timeframe bias with customizable multipliers (2-10x) and incorporates HTF trend direction into Smart Money Score for institutional alignment 🔧Core Components Order Block Engine – Detects institutional supply/demand zones using characteristic patterns (down-move-then-strong-up for bullish, up-move-then-strong-down for bearish) with minimum volume threshold validation, tracks mitigation when price closes through zones Fair Value Gap Scanner – Identifies price imbalances where current candle's low/high leaves gap with two-candle-prior high/low, filters by minimum size percentage, monitors 50% fill for mitigation status Liquidity Zone Mapper – Uses pivot high/low detection with configurable lookback to mark swing points where stop losses cluster, extends horizontal lines to visualize sweep targets, manages lifecycle through age-based removal Market Structure Analyzer – Tracks pivot progression to identify trend through higher-highs/higher-lows (bullish) or lower-highs/lower-lows (bearish), detects Break of Structure and Change of Character for trend/reversal confirmation Scoring Calculation Engine – Evaluates proximity to nearest Order Blocks using ATR-normalized distance, assesses FVG recency and distance, calculates liquidity proximity with age weighting, combines structure bias and MTF trend into smoothed final score 🔥Key Features Customizable Display Limits – Control maximum Order Blocks (1-10), Liquidity Zones (1-10), and FVG age (10-200 bars) to maintain clean charts focused on most relevant institutional levels Gradient Strength Visualization – All zones render with transparency-adjustable coloring where stronger/newer zones appear more solid and weaker/older zones fade progressively providing instant visual hierarchy Educational Label System – Optional labels identify each zone type (Bullish OB, Bearish OB, Bullish FVG, Bearish FVG, BOS) with color-coded text helping traders learn SMC concepts through practical application Real-Time Smart Money Score Dashboard – Top-right table displays current score (0-100) with color coding (green >70, yellow 30-70, red <30) plus trend arrow for at-a-glance confidence assessment Comprehensive Alert Suite – Configurable notifications for Order Block formation, Fair Value Gap detection, Break of Structure events, Change of Character signals, and high Smart Money Score readings (>70) Buy/Sell Signal Integration – Automatically plots triangle markers when Smart Money Score exceeds 70 with aligned market structure and fresh Order Block detection providing clear entry signals 🎨Visualization Order Block Boxes – Shaded rectangles extend from formation bar spanning high-to-low of institutional candle, bullish zones in green, bearish in red, with customizable transparency (80-98%) Fair Value Gap Zones – Rectangular areas marking imbalances, active FVGs display in bright colors with adjustable transparency, mitigated FVGs switch to gray preventing trades on filled zones Liquidity Level Lines – Dashed horizontal lines extend from pivot creation points, swing highs in bearish color (short targets above), swing lows in bullish color (long targets below), opacity decreases with age Structure Labels – "BOS" labels appear above/below price when Break of Structure confirmed, colored by direction (green bullish, red bearish), positioned at 1% beyond highs/lows for visibility Educational Info Panel – Bottom-right table explains key terminology (OB, FVG, BOS, CHoCH) and score interpretation (>70 high probability) with semi-transparent background for readability 📖Usage Guidelines General Settings Show Order Blocks – Default: On, toggles visibility of institutional supply/demand zones, disable when focusing solely on FVGs or Liquidity Show Fair Value Gaps – Default: On, controls FVG zone display including active and mitigated imbalances Show Liquidity Zones – Default: On, manages liquidity line visibility, disable on lower timeframes to reduce clutter Show Market Structure – Default: On, toggles BOS/CHoCH label display Show Smart Money Score – Default: On, controls score dashboard visibility Order Block Settings OB Lookback Period – Default: 20, Range: 5-100, controls bars scanned for Order Block patterns, lower values detect recent activity, higher values find older blocks Min Volume Multiplier – Default: 1.5, Range: 1.0-5.0, sets minimum volume threshold as multiple of 20-period average, higher values (2.0+) filter for strongest institutional candles Max Order Blocks to Display – Default: 3, Range: 1-10, limits simultaneous Order Blocks shown, lower settings (1-3) maintain focus on most recent zones Fair Value Gap Settings Min FVG Size (%) – Default: 0.3, Range: 0.1-2.0, defines minimum gap size as percentage of close price, lower values detect micro-imbalances, higher values focus on significant gaps Max FVG Age (bars) – Default: 50, Range: 10-200, removes FVGs older than specified bars, lower settings (10-30) for scalping, higher (100-200) for swing trading Show FVG Mitigation – Default: On, displays filled FVGs in gray providing visual history, disable to show only active untouched imbalances Liquidity Zone Settings Liquidity Lookback – Default: 50, Range: 20-200, sets pivot detection period for swing highs/lows, lower values (20-50) mark shorter-term liquidity, higher (100-200) identify major swings Max Liquidity Age (bars) – Default: 100, Range: 20-500, removes liquidity lines older than specified bars, adjust based on timeframe Liquidity Sensitivity – Default: 0.5, Range: 0.1-1.0, controls pivot detection sensitivity, lower values mark only major swings, higher values identify minor swings Max Liquidity Zones to Display – Default: 3, Range: 1-10, limits total liquidity levels shown maintaining chart clarity Market Structure Settings Pivot Length – Default: 5, Range: 3-15, defines bars to left/right for pivot validation, lower values (3-5) create sensitive structure breaks, higher (10-15) filter for major shifts Min Structure Move (%) – Default: 1.0, Range: 0.1-5.0, sets minimum percentage move required between pivots to confirm structure change Multi-Timeframe Settings Enable MTF Analysis – Default: On, activates higher timeframe trend analysis incorporation into Smart Money Score Higher Timeframe Multiplier – Default: 4, Range: 2-10, multiplies current timeframe to determine analysis timeframe (4x on 15min = 1hour) Visual Settings Bullish Color – Default: Green (#089981), sets color for bullish Order Blocks, FVGs, and structure elements Bearish Color – Default: Red (#f23645), defines color for bearish elements Neutral Color – Default: Gray (#787b86), controls color of mitigated zones and neutral elements Show Educational Labels – Default: On, displays text labels on zones identifying type (OB, FVG, BOS), disable once familiar with patterns Order Block Transparency – Default: 92, Range: 80-98, controls Order Block box transparency FVG Transparency – Default: 92, Range: 80-98, sets Fair Value Gap zone transparency independently from Order Blocks Alert Settings Alert on Order Block Formation – Default: On, triggers notification when new volume-validated Order Block detected Alert on FVG Formation – Default: On, sends alert when Fair Value Gap appears enabling quick response to imbalances Alert on Break of Structure – Default: On, notifies when BOS or CHoCH confirmed Alert on High Smart Money Score – Default: On, alerts when Smart Money Score crosses above 70 threshold indicating high-probability setup ✅Best Use Cases Order Block Retest Entries – After Break of Structure, wait for price retrace into fresh bullish Order Block with Smart Money Score >70, enter long on zone reaction targeting next liquidity level Fair Value Gap Retracement Trading – When price creates FVG during strong move then retraces, enter as price approaches unfilled gap expecting institutional orders to continue trend Liquidity Sweep Reversals – Monitor price approaching swing high/low liquidity zones against prevailing Smart Money Score trend, after stop hunt sweep watch for rejection into premium Order Block/FVG Multi-Timeframe Confluence Setups – Identify alignment when current timeframe Order Block coincides with higher timeframe FVG plus MTF analysis showing matching trend bias Break of Structure Continuations – After BOS confirms trend direction, trade pullbacks to nearest Order Block or FVG in direction of structure break using Smart Money Score >70 as entry filter Change of Character Reversal Plays – When CHoCH detected indicating potential reversal, look for Smart Money Score pivot with opposing Order Block formation then enter on structure confirmation ⚠️Limitations Lagging Pivot Calculations – Pivot-based features (Liquidity Zones, Market Structure) require bars to right of pivot for confirmation, meaning these elements identify levels retrospectively with delay equal to lookback period Whipsaw in Ranging Markets – During choppy conditions, Order Blocks fail frequently and structure breaks produce false signals as Smart Money Score fluctuates without clear institutional bias, best used in trending markets Volume Data Dependency – Order Block volume validation requires accurate volume data which may be incomplete on Forex pairs or limited in crypto exchange feeds Subjectivity in Scoring Weights – Proprietary 25-20-20-20-15 weighting reflects general institutional behavior but may not optimize for specific instruments or market regimes, user cannot adjust factor weights Visual Complexity on Lower Timeframes – Sub-hour timeframes generate excessive zones creating cluttered charts, requires aggressive display limit reduction and higher minimum thresholds No Fundamental Integration – Indicator analyzes purely technical price action and volume without incorporating economic events, news catalysts, or fundamental shifts that override technical levels 💡What Makes This Unique Unified SMC Ecosystem – Unlike indicators displaying Order Blocks OR FVGs OR Liquidity separately, SMFI combines all three institutional concepts plus market structure into single cohesive system Proprietary Confidence Scoring – Rather than manual setup assessment, automated Smart Money Score quantifies probability by weighting five institutional dimensions into actionable 0-100 rating Volume-Filtered Quality – Eliminates weak Order Blocks forming without institutional volume confirmation, ensuring displayed zones represent genuine accumulation/distribution Adaptive Lifecycle Management – Automatically updates mitigation status and removes aged zones preventing trades on dead levels through continuous validity and age monitoring Educational Integration – Built-in tooltips, labeled zones, and reference panel make indicator functional for both learning Smart Money Concepts and executing strategies 🔬How It Works Order Block Detection – Scans for patterns where strong directional move follows counter-move creating last down-candle before rally (bullish OB) or last up-candle before sell-off (bearish OB), validates formations only when candle exhibits volume exceeding configurable multiple (default 1.5x) of 20-bar average volume Fair Value Gap Identification – Compares current candle’s high/low against two-candles-prior low/high to detect price imbalances, calculates gap size as percentage of close and filters micro-gaps below minimum threshold (default 0.3%), monitors whether subsequent price fills 50% triggering mitigation status Liquidity Zone Mapping – Employs pivot detection using configurable lookback (default 50 bars) to identify swing highs/lows where retail stops cluster, extends horizontal reference lines from pivot creation and applies age-based filtering to remove stale zones Market Structure Analysis – Tracks pivot progression using structure-specific lookback (default 5 bars) to determine trend, confirms uptrend when new pivot high exceeds previous by minimum move percentage, detects Break of Structure when price breaks recent pivot level, flags Change of Character for potential reversals Multi-Timeframe Confluence – When enabled, requests security data from higher timeframe (current TF × HTF multiplier, default 4x), compares HTF close against HTF 20-period MA to determine bias, contributes ±50 points to score ensuring alignment with institutional positioning on superior timeframe Smart Money Score Calculation – Evaluates Order Block component via ATR-normalized distance producing max 100-point contribution weighted at 25%, assesses FVG factor through age penalty and distance at 20% weight, calculates Liquidity proximity at 20%, incorporates structure bias (±50-100 points) at 20%, adds MTF component at 15%, applies 3-period smoothing to reduce volatility Visual Rendering and Lifecycle – Draws Order Block boxes, Fair Value Gap rectangles with color coding (green/red active, gray mitigated), extends liquidity dashed lines with fade-by-age opacity, plots BOS labels, displays Smart Money Score dashboard, continuously updates checking mitigation conditions and removing elements exceeding age/display limits 💡Note: The Smart Money Flow Index combines multiple Smart Money Concepts into unified institutional order flow analysis. For optimal results, use the Smart Money Score as confluence filter rather than standalone entry signal – scores above 70 indicate high-probability setups but should be combined with risk management, higher timeframe bias, and market regime understanding.

Chỉ báo Pine Script®

Volume Area 80 Rule Pro - Adaptive RTH Summary in one paragraph Adaptive value area 80 percent rule for index futures large cap equities liquid crypto and major FX on intraday timeframes. It focuses activity only when multiple context gates align. It is original because the classic prior day value area traverse is fused with a daily regime classifier that remaps the operating parameters in real time. Scope and intent • Markets. ES NQ SPY QQQ large cap equities BTC ETH major FX pairs and other liquid RTH instruments • Timeframes. One minute to one hour with daily regime context • Default demo used in the publication. ES1 on five minutes • Purpose. Trade only the balanced days where the 80 percent traverse has edge while standing aside or tightening rules during trend or shock Originality and usefulness • Unique fusion. Prior day value area logic plus a rolling daily regime classifier using percentile ranks of realized volatility and ADX. The regime remaps hold time end of window stop buffer and value area coverage on each session • Failure mode addressed. False starts during strong trend or shock sessions and weak traverses during quiet grind • Testability. All gates are visible in Inputs and debug flags can be plotted so users can verify why a suggestion appears • Portable yardstick. The regime uses ATR divided by close and ADX percent ranks which behave consistently across symbols Method overview in plain language The script builds the prior session profile during regular trading hours. At the first regular bar it freezes yesterday value area low value area high and point of control. It then evaluates the current session open location the first thirty minute volume rank the open gap rank and an opening drive test. In parallel a daily series classifies context into Calm Balance Trend or Shock from rolling percentile ranks of realized volatility and ADX. The classifier scales the rules. Calm uses longer holds and a slightly wider value area. Trend and Shock shorten the window reduce holds and enlarge stop buffers. Base measures • Range basis. True Range smoothed over a configurable length on both the daily and intraday series • Return basis. Not required. ATR over close is the unit for regime strength Components • Prior Value Area Engine. Builds yesterday value area low value area high and point of control from a binned volume profile with automatic TPO fallback and minimum integrity guards • Opening Location. Detects whether the session opens above the prior value area or below it • Inside Hold Counter. Counts consecutive bars that hold inside the value area after a re entry • Volume Gate. Percentile of the first thirty minutes volume over a rolling sample • Gap Gate. Percentile rank of the regular session open gap over a rolling sample • Drive Gate. Opening drive check using a multiple of intraday ATR • Regime Classifier. Percentile ranks of daily ATR over close and daily ADX classify Calm Balance Trend Shock and remap parameters • Session windows optional. Windows follow the chart exchange time Fusion rule Minimum satisfied gates approach. A re entry must hold inside the value area for a regime scaled number of bars while the volume gap and drive gates allow the setup. The regime simultaneously scales value area coverage end minute time stop and stop buffer. Signal rule • Long suggestion appears when price opens below yesterday value area then re enters and holds for the required bars while all gates allow the setup • Short suggestion appears when price opens above yesterday value area then re enters and holds for the required bars while all gates allow the setup • WAIT shows implicitly when any required gate is missing • Exit labels mark target touch stop touch or a time based close Inputs with guidance Setup • Signal timeframe. Uses the chart by default • Session windows optional. Start and end minutes inside regular trading hours • Invert direction is not used. The logic is symmetric Logic • Hold bars inside value area. Typical range 3 to 12. Raising it reduces trades and favors better traverses. Lowering it increases frequency and risk of false starts • Earliest minute since RTH open and Latest minute since RTH open. Typical range 0 to 390. Reducing the latest minute cuts late session trades • Time stop bars after entry. Typical range 6 to 30. Larger values give setups more room Filters • Value area coverage. Typical range 0.70 to 0.85. Higher coverage narrows the traverse but accepts fewer days • Bin size in ticks. Typical range 1 to 8. Larger bins stabilize noisy profiles • Stop buffer ticks beyond edge. Typical range 2 to 20. Larger buffers survive noise • First thirty minute volume percentile. Typical range 0.30 to 0.70. Higher values require more active opens • Gap filter percentile. Typical range 0.70 to 0.95. Lower values block more gap days • Opening drive multiple and bars. Higher multiple or longer bars block strong directional opens Adaptivity • Lookback days for regime ranks. Typical 150 to 500 • Calm RV percentile. Typical 25 to 45 • Trend ADX percentile. Typical 55 to 75 • Shock RV percentile. Typical 75 to 90 • End minute ratio in Trend and Shock. Typical 0.5 to 0.8 • Hold and Time stop scales per regime. Use values near one to keep behavior close to static settings Realism and responsible publication • No performance claims. Past results never guarantee future outcomes • Shapes can move while a bar forms and settle on close • Sessions use the chart exchange time Honest limitations and failure modes • Economic releases and thin liquidity can break the balance premise • Gap heavy symbols may work better with stronger gap filters and a True Range focus • Very quiet regimes reduce signal contrast. Consider longer windows or higher thresholds Legal Education and research only. Not investment advice. Test in simulation before any live use.

Chỉ báo Pine Script®

MTC – Multi-Timeframe Trend Confirmator MTC – Multi-Timeframe Trend Confirmator The Ultimate Multi-Timeframe Trend Analysis Tool MTC v6 is a comprehensive trend confirmation indicator that analyzes market conditions across multiple timeframes simultaneously. It combines six powerful technical indicators to give you a clear, visual representation of trend strength and direction. 🎯 Key Features Visual Trend Gauge Real-time trend strength display for 3 customizable timeframes Progressive bar visualization (fills from left to right) Color-coded signals: 🟢 Green (Bullish) | 🔴 Red (Bearish) | 🟡 Yellow (Ranging) Score range: -10 to +10 for precise trend measurement Multi-Indicator Analysis The indicator combines 6 proven technical tools: EMA 200 – Long-term trend direction SMA 50/200 – Golden/Death cross signals RSI 14 – Momentum confirmation MACD – Trend strength validation ADX (>25) – Trend intensity measurement (2x weight) Supertrend – Dynamic support/resistance (2x weight) ⚙️ Customization Options Flexible Timeframes: Set any timeframes you prefer (default: 15M, 1H, 4H) Adjustable Gauge Size: Small, Medium, or Large display Toggle Indicators: Enable/disable any of the 6 technical indicators Supertrend Settings: Customize factor and ATR period Built-in Alerts: Get notified when trends confirm 📈 How to Use Score Interpretation: Score > +2 = Bullish trend Score < -2 = Bearish trend Score between -2 and +2 = Ranging/Neutral Multi-Timeframe Confirmation: Look for alignment across timeframes for strongest signals Higher timeframes confirm the overall trend direction Lower timeframes help with precise entry timing Visual Background: Green background = Confirmed uptrend (Higher + Mid TF aligned) Red background = Confirmed downtrend (Higher + Mid TF aligned) 💡 Perfect For Swing traders seeking trend confirmation Day traders analyzing multiple timeframes Position traders validating long-term trends Anyone who wants clear, visual trend analysis Trade with confidence. Trade with confirmation. Trade with MTC -Natantia

Chỉ báo Pine Script®

NY ORB - Full Dynamic System NY ORB - Full Dynamic Strategy Summary 1. Opening Range and Session Timing Opening Range (ORB) Calculation: The strategy identifies the ORB High and ORB Low by tracking the highest high and lowest low during the specified New York pre-market window, which is set by default from 8:30 to 8:45 (New York time). Entry Window: Trading activity is restricted to a specific entry period, typically starting shortly after the ORB is established (default: 8:50 to 12:00). Hard Exit Time: Any remaining open positions are automatically closed at a fixed exit time (default: 13:25). 2. Trade Entry Logic and Filters An entry (Long or Short) is generated when the price breaks out of the established ORB, provided it passes a series of optional filters: Direction Control: The user can restrict the strategy to trade Long Only, Short Only, or Both. Second Breakout Logic: An optional filter that requires the price to break out, reverse back into the range, and then break out again, confirming momentum after a consolidation. Confirmation Candle Count: An optional filter that checks the close of a previous candle (e.g., 1 or 2 candles ago) to ensure the price was still inside the range, preventing premature entry. Technical Filters (Optional): The entry is only executed if it aligns with selected indicators: RSI: Filters for non-overbought (Long) or non-oversold (Short) conditions. MACD: Requires the MACD line to be above/below the Signal line for alignment. VWAP: Requires the price to be above/below the Volume-Weighted Average Price. Trend Filter (SMMA): Requires the price to be above/below a 50-period Simple Moving Average. 3. Dynamic Risk and Exit Management This strategy features highly configurable stop-loss and profit-taking mechanics: Primary Stop Loss Methods: The Stop Loss distance can be dynamically chosen from four types: Fixed: A fixed number of ticks. ATR: Based on a multiple of the Average True Range (ATR). Capped ATR: ATR-based, but with a hard maximum tick limit. OR-Based: Based on a multiple of the actual ORB High-to-Low range. Dynamic Profit Target: The Take Profit level is calculated dynamically based on a multiplier of either the ATR or the ORB Range. Breakeven Stop: If enabled, the Stop Loss automatically moves to the entry price (Breakeven) once the price moves a predetermined distance in the profitable direction. An Adaptive Breakeven option allows the trigger distance to be calculated as a percentage of the overall ATR Profit Target. Trailing Stop: The strategy uses a trailing stop, which can be custom-set (fixed ticks) or dynamically tied to the ATR. An optional feature Auto Tighten Trailing reduces the trailing multiplier once the breakeven level is hit. MA Cross Exit: An alternative, counter-trend exit mechanism that closes the trade if the price crosses back over the chosen Moving Average (either SMMA or VWAP), overriding the pending profit target. 4. Daily Account Management The strategy includes crucial daily risk controls to protect capital and lock in profits: Daily Profit Limit: If the total daily PnL (realized and unrealized) hits a predefined maximum profit threshold (in ticks), all trades are closed, and new entries are blocked for the remainder of the trading day. Daily Loss Limit: Conversely, if the total daily PnL hits a predefined maximum loss threshold, all trades are closed, and new entries are blocked for the remainder of the day.

Chiến lược Pine Script®

của mcward302

RSI Trendline Pro - Multi Confirmation Overview RSI Trendline Pro is an advanced Pine Script indicator that automatically draws trendlines on the RSI (Relative Strength Index) to detect support and resistance breakouts. It generates high-quality trading signals through a multi-confirmation system. Key Features Auto Trendlines: Detects pivot points on RSI to create intelligent support and resistance lines Multi-Confirmation System: Combines Volume, Stochastic RSI, ADX, and Divergence filters to reduce false signals RSI Divergence Detection: Automatically identifies bullish/bearish divergences between price and RSI Live Dashboard: Displays RSI value, active trendlines, ADX strength, and last signal info on a visual panel Smart Breakout Detection: Identifies trendline breaks and generates LONG/SHORT signals How to Use Add to TradingView: Paste code into Pine Editor and add to chart Configure Parameters: RSI Length: RSI period (default: 14) Pivot Strength: Trendline sensitivity (lower = more lines) Filters: Enable/disable Volume, Divergence, Stoch RSI, and ADX confirmations Follow Signals: LONG (Green): When RSI breaks resistance upward SHORT (Red): When RSI breaks support downward Divergence: "D" markers indicate potential trend reversals Alert Setup Script offers 4 alert types: LONG Breakout: Resistance break SHORT Breakout: Support break Bullish/Bearish Divergence: Divergence detection Any Signal: Combined alert for all signals Best Practices Prioritize high-volume breakouts (Volume Filter enabled) Trends are stronger when ADX > 25 Confirm divergence signals with price action Trade when 2-3 confirmations align

Chỉ báo Pine Script®

của last_satoshi

Opening Range Breakout with Multi-Timeframe Liquidity]═══════════════════════════════════════ OPENING RANGE BREAKOUT WITH MULTI-TIMEFRAME LIQUIDITY ═══════════════════════════════════════ A professional Opening Range Breakout (ORB) indicator enhanced with multi-timeframe liquidity detection, trading session visualization, volume analysis, and trend confirmation tools. Designed for intraday trading with comprehensive alert system. ─────────────────────────────────────── WHAT THIS INDICATOR DOES ─────────────────────────────────────── This indicator combines multiple trading concepts: - Opening Range Breakout (ORB) - Customizable time period detection with automatic high/low identification - Multi-Timeframe Liquidity - HTF (Higher Timeframe) and LTF (Lower Timeframe) key level detection - Trading Sessions - Tokyo, London, New York, and Sydney session visualization - Volume Analysis - Volume spike detection and strength measurement - Multi-Timeframe Confirmation - Trend bias from higher timeframes - EMA Integration - Trend filter and dynamic support/resistance - Smart Alerts - Quality-filtered breakout notifications ─────────────────────────────────────── HOW IT WORKS ─────────────────────────────────────── OPENING RANGE BREAKOUT (ORB): Concept: The Opening Range is a period at the start of a trading session where price establishes an initial high and low. Breakouts beyond this range often indicate the direction of the day's trend. Detection Method: - Default: 15-minute opening range (configurable) - Custom Range: Set specific session times with timezone support - Automatically identifies ORH (Opening Range High) and ORL (Opening Range Low) - Tracks ORB mid-point for reference Range Establishment: 1. Session starts (or custom time begins) 2. Tracks highest high and lowest low during the period 3. Range confirmed at end of opening period 4. Levels extend throughout the session Breakout Detection: - Bullish Breakout: Close above ORH - Bearish Breakout: Close below ORL - Mid-point acts as bias indicator Visual Display: - Shaded box during range formation - Horizontal lines for ORH, ORL, and mid-point - Labels showing level values - Color-coded fills based on selected method Fill Color Methods: 1. Session Comparison: - Green: Current OR mid > Previous OR mid - Red: Current OR mid < Previous OR mid - Gray: Equal or first session - Shows day-over-day momentum 2. Breakout Direction (Recommended): - Green: Price currently above ORH (bullish breakout) - Red: Price currently below ORL (bearish breakout) - Gray: Price inside range (no breakout) - Real-time breakout status MULTI-TIMEFRAME LIQUIDITY: Two-Tier System for comprehensive level identification: HTF (Higher Timeframe) Key Liquidity: - Default: 4H timeframe (configurable to Daily, Weekly) - Identifies major institutional levels - Uses pivot detection with adjustable parameters - Suitable for swing highs/lows where large orders rest LTF (Lower Timeframe) Key Liquidity: - Default: 1H timeframe (configurable) - Provides precision entry/exit levels - Finer granularity for intraday trading - Captures minor swing points Calculation Method: - Pivot high/low detection algorithm - Configurable left bars (lookback) and right bars (confirmation) - Timeframe multiplier for accurate multi-timeframe detection - Automatic level extension Mitigation System: - Tracks when levels are swept (broken) - Configurable mitigation type: Wick or Close-based - Option to remove or show mitigated levels - Display limit prevents chart clutter Asset-Specific Optimization: The indicator includes quick reference settings for different assets: - Major Forex (EUR/USD, GBP/USD): Default settings optimal - Crypto (BTC/ETH): Left=12, Right=4, Display=7 - Gold: HTF=1D, Left=20 TRADING SESSIONS: Four Major Sessions with Full Customization: Tokyo Session: - Default: 04:00-13:00 UTC+4 - Asian trading hours - Often sets daily range London Session: - Default: 11:00-20:00 UTC+4 - Highest liquidity period - Major institutional activity New York Session: - Default: 16:00-01:00 UTC+4 - US market hours - High-impact news events Sydney Session: - Default: 01:00-10:00 UTC+4 - Earliest Asian activity - Lower volatility Session Features: - Shaded background boxes - Session name labels - Optional open/close lines - Session high/low tracking with colored lines - Each session has independent color settings - Fully customizable times and timezones VOLUME ANALYSIS: Volume-Based Trade Confirmation: Volume MA: - Configurable period (default: 20) - Establishes average volume baseline - Used for spike detection Volume Spike Detection: - Identifies when volume exceeds MA * multiplier - Default: 1.5x average volume - Confirms breakout strength Volume Strength Measurement: - Calculates current volume as percentage of average - Shows relative volume intensity - Used in alert quality filtering High Volume Bars: - Identifies bars above 50th percentile - Additional confirmation layer - Indicates institutional participation MULTI-TIMEFRAME CONFIRMATION: Trend Bias from Higher Timeframes: HTF 1 (Trend): - Default: 1H timeframe - Uses EMA to determine intermediate trend - Compares current timeframe EMA to HTF EMA HTF 2 (Bias): - Default: 4H timeframe - Uses 50 EMA for longer-term bias - Confirms overall market direction Bias Classifications: - Bullish Bias: HTF close > HTF 50 EMA AND Current EMA > HTF1 EMA - Bearish Bias: HTF close < HTF 50 EMA AND Current EMA < HTF1 EMA - Neutral Bias: Mixed signals between timeframes EMA Stack Analysis: - Compares EMA alignment across timeframes - +1: Bullish stack (lower TF EMA > higher TF EMA) - -1: Bearish stack (lower TF EMA < higher TF EMA) - 0: Neutral/crossed Usage: - Filters false breakouts - Confirms trend direction - Improves trade quality EMA INTEGRATION: Dynamic EMA for Trend Reference: Features: - Configurable period (default: 20) - Customizable color and width - Acts as dynamic support/resistance - Trend filter for ORB trades Application: - Above EMA: Favor long breakouts - Below EMA: Favor short breakouts - EMA cross: Potential trend change - Distance from EMA: Momentum gauge SMART ALERT SYSTEM: Quality-Filtered Breakout Notifications: Alert Types: 1. Standard ORB Breakout 2. High Quality ORB Breakout Quality Criteria: - Volume Confirmation: Volume > 1.2x average - MTF Confirmation: Bias aligned with breakout direction Standard Alert: - Basic breakout detection - Price crosses ORH or ORL - Icon: 🚀 (bullish) or 🔻 (bearish) High Quality Alert: - Both volume AND MTF confirmed - Stronger probability setup - Icon: 🚀⭐ (bullish) or 🔻⭐ (bearish) Alert Information Includes: - Alert quality rating - Breakout level and current price - Volume strength percentage (if enabled) - MTF bias status (if enabled) - Recommended action One Alert Per Bar: - Prevents alert spam - Uses flag system to track sent alerts - Resets on new ORB session ─────────────────────────────────────── HOW TO USE ─────────────────────────────────────── OPENING RANGE SETUP: Basic Configuration: 1. Select time period for opening range (default: 15 minutes) 2. Choose fill color method (Breakout Direction recommended) 3. Enable historical data display if needed Custom Range (Advanced): 1. Enable Custom Range toggle 2. Set specific session time (e.g., 0930-0945) 3. Select appropriate timezone 4. Useful for specific market opens (NYSE, LSE, etc.) LIQUIDITY LEVELS SETUP: Quick Configuration by Asset: - Forex: Use default settings (Left=15, Right=5) - Crypto: Set Left=12, Right=4, Display=7 - Gold: Set HTF=1D, Left=20 HTF Liquidity: - Purpose: Major support/resistance levels - Recommended: 4H for day trading, 1D for swing trading - Use as profit targets or reversal zones LTF Liquidity: - Purpose: Entry/exit refinement - Recommended: 1H for day trading, 4H for swing trading - Use for position management Mitigation Settings: - Wick-based: More sensitive (default) - Close-based: More conservative - Remove or Show mitigated levels based on preference TRADING SESSIONS SETUP: Enable/Disable Sessions: - Master toggle for all sessions - Individual session controls - Show/hide session names Session High/Low Lines: - Enable to see session extremes - Each session has custom colors - Useful for range trading Customization: - Adjust session times for your broker - Set timezone to match your location - Customize colors for visibility VOLUME ANALYSIS SETUP: Enable Volume Analysis: 1. Toggle on Volume Analysis 2. Set MA length (20 recommended) 3. Adjust spike multiplier (1.5 typical) Usage: - Confirm breakouts with volume - Identify climactic moves - Filter false signals MULTI-TIMEFRAME SETUP: HTF Selection: - HTF 1 (Trend): 1H for day trading, 4H for swing - HTF 2 (Bias): 4H for day trading, 1D for swing Interpretation: - Trade only with bias alignment - Neutral bias: Be cautious - Bias changes: Potential reversals EMA SETUP: Configuration: - Period: 20 for responsive, 50 for smoother - Color: Choose contrasting color - Width: 1-2 for visibility Usage: - Filter trades: Long above, Short below - Dynamic support/resistance reference - Trend confirmation ALERT SETUP: TradingView Alert Creation: 1. Enable alerts in indicator settings 2. Enable ORB Breakout Alerts 3. Right-click chart → Add Alert 4. Select this indicator 5. Choose "Any alert() function call" 6. Configure delivery method (mobile, email, webhook) Alert Filtering: - All alerts include quality rating - High Quality alerts = Volume + MTF confirmed - Standard alerts = Basic breakout only ─────────────────────────────────────── TRADING STRATEGIES ─────────────────────────────────────── CLASSIC ORB STRATEGY: Setup: 1. Wait for opening range to complete 2. Price breaks and closes above ORH or below ORL 3. Volume > average (if enabled) 4. MTF bias aligned (if enabled) Entry: - Bullish: Buy on break above ORH - Bearish: Sell on break below ORL - Consider retest entries for better risk/reward Stop Loss: - Bullish: Below ORL or range mid-point - Bearish: Above ORH or range mid-point - Adjust based on volatility Targets: - Initial: Range width extension (ORH + range width) - Secondary: HTF liquidity levels - Final: Session high/low or major support/resistance ORB + LIQUIDITY CONFLUENCE: Enhanced Setup: 1. Opening range established 2. HTF liquidity level near or beyond ORH/ORL 3. Breakout occurs with volume 4. Price targets the liquidity level Entry: - Enter on ORB breakout - Target the HTF liquidity level - Use LTF liquidity for position management Management: - Partial profits at ORB + range width - Move stop to breakeven at LTF liquidity - Final exit at HTF liquidity sweep ORB REJECTION STRATEGY (Counter-Trend): Setup: 1. Price breaks above ORH or below ORL 2. Weak volume (below average) 3. MTF bias opposite to breakout 4. Price closes back inside range Entry: - Failed bullish break: Short below ORH - Failed bearish break: Long above ORL Stop Loss: - Beyond the failed breakout level - Or beyond session extreme Target: - Opposite end of opening range - Range mid-point for partial profit SESSION-BASED ORB TRADING: Tokyo Session: - Typically narrower ranges - Good for range trading - Wait for London open breakout London Session: - Highest volume and volatility - Strong ORB setups - Major liquidity sweeps common New York Session: - Strong trending moves - News-driven volatility - Good for momentum trades Sydney Session: - Quieter conditions - Suitable for range strategies - Sets up Tokyo session EMA-FILTERED ORB: Rules: - Only take bullish breaks if price > EMA - Only take bearish breaks if price < EMA - Ignore counter-trend breaks Benefits: - Reduces false signals - Aligns with larger trend - Improves win rate ─────────────────────────────────────── CONFIGURATION GUIDE ─────────────────────────────────────── OPENING RANGE SETTINGS: Time Period: - 15 min: Standard for most markets - 30 min: Wider range, fewer breakouts - 60 min: For slower markets or swing trades Custom Range: - Use for specific market opens - NYSE: 0930-1000 EST - LSE: 0800-0830 GMT - Set timezone to match exchange Historical Display: - Enable: See all previous session data - Disable: Cleaner chart, current session only LIQUIDITY SETTINGS: Left Bars (5-30): - Lower: More frequent, sensitive levels - Higher: Fewer, more significant levels - Recommended: 15 for most markets Right Bars (1-25): - Confirmation period - Higher: More reliable, less frequent - Recommended: 5 for balance Display Limit (1-20): - Number of active levels shown - Higher: More context, busier chart - Recommended: 7 for clarity Extension Options: - Short: Levels visible near formation - Current: Extended to current bar (recommended) - Max: Extended indefinitely VOLUME SETTINGS: MA Length (5-50): - Shorter: More responsive to spikes - Longer: Smoother baseline - Recommended: 20 for balance Spike Multiplier (1.0-3.0): - Lower: More sensitive spike detection - Higher: Only extreme spikes - Recommended: 1.5 for day trading MULTI-TIMEFRAME SETTINGS: HTF 1 (Trend): - 5m chart: Use 15m or 1H - 15m chart: Use 1H or 4H - 1H chart: Use 4H or 1D HTF 2 (Bias): - One level higher than HTF 1 - Provides longer-term context - Don't use same as HTF 1 EMA SETTINGS: Length: - 20: Responsive, more signals - 50: Smoother, stronger filter - 200: Long-term trend only Style: - Choose contrasting color - Width 1-2 for visibility - Match your trading style ─────────────────────────────────────── BEST PRACTICES ─────────────────────────────────────── Chart Timeframe Selection: - ORB Trading: Use 5m or 15m charts - Session Review: Use 1H or 4H charts - Swing Trading: Use 1H or 4H charts Quality Over Quantity: - Wait for high-quality alerts (volume + MTF) - Avoid trading every breakout - Focus on confluence setups Risk Management: - Position size based on range width - Wider ranges = smaller positions - Use stop losses always - Take partial profits at targets Market Conditions: - Best results in trending markets - Reduce position size in choppy conditions - Consider session overlaps for volatility - Avoid trading near major news if inexperienced Continuous Improvement: - Track win rate by session - Note which confluence factors work best - Adjust settings based on market volatility - Review performance weekly ─────────────────────────────────────── PERFORMANCE OPTIMIZATION ─────────────────────────────────────── This indicator is optimized with: - max_bars_back declarations for efficient processing - Conditional calculations based on enabled features - Proper memory management for drawing objects - Minimal recalculation on each bar Best Practices: - Disable unused features (sessions, MTF, volume) - Limit historical display to reduce rendering - Use appropriate timeframe for your strategy - Clear old drawing objects periodically ─────────────────────────────────────── EDUCATIONAL DISCLAIMER ─────────────────────────────────────── This indicator combines established trading concepts: - Opening Range Breakout theory (price action) - Liquidity level detection (pivot analysis) - Session-based trading (time-of-day patterns) - Volume analysis (confirmation technique) - Multi-timeframe analysis (trend alignment) All calculations use standard technical analysis methods: - Pivot high/low detection algorithms - Moving averages for trend and volume - Session time filtering - Timeframe security functions The indicator identifies potential trading setups but does not predict future price movements. Success requires proper application within a complete trading strategy including risk management, position sizing, and market context. ─────────────────────────────────────── USAGE DISCLAIMER ─────────────────────────────────────── This tool is for educational and analytical purposes. Opening Range Breakout trading involves substantial risk. The alert system and quality filters are designed to identify potential setups but do not guarantee profitability. Always conduct independent analysis, use proper risk management, and never risk capital you cannot afford to lose. Past performance does not indicate future results. Trading intraday breakouts requires experience and discipline. ─────────────────────────────────────── CREDITS & ATTRIBUTION ─────────────────────────────────────── ORIGINAL SOURCE: This indicator builds upon concepts from LuxAlgo's-ORB

Chỉ báo Pine Script®

của Fx-Jithin

DTCC RECAPS Dates 2020-2025 This is a simple indicator which marks the RECAPS dates of the DTCC, during the periods of 2020 to 2025. These dates have marked clear settlement squeezes in the past, such as GME's squeeze of January 2021. ------------------------------------------------------------------------------------------------------------------ The Depository Trust & Clearing Corporation (DTCC) has published the 2025 schedule for its Reconfirmation and Re-pricing Service (RECAPS) through the National Securities Clearing Corporation (NSCC). RECAPS is a monthly process for comparing and re-pricing eligible equities, municipals, corporate bonds, and Unit Investment Trusts (UITs) that have aged two business days or more . At its core, the Reconfirmation and Re-pricing Service (RECAPS) is a risk management tool used by the National Securities Clearing Corporation (NSCC), a subsidiary of the DTCC. Its primary purpose is to reduce the risks associated with aged, unsettled trades in the U.S. securities market . When a trade is executed, it is sent to the NSCC for clearing and settlement. However, for various reasons, some trades may not settle on their scheduled date and become "aged." These unsettled trades create risk for both the trading parties and the clearinghouse (NSCC) because the value of the underlying securities can change over time. If a trade fails to settle and one of the parties defaults, the NSCC may have to step in to complete the transaction at the current market price, which could result in a loss. RECAPS mitigates this risk by systematically re-pricing these aged, open trading obligations to the current market value. This process ensures that the financial obligations of the clearing members accurately reflect the present value of the securities, preventing the accumulation of significant, unmanaged market risk . Detailed Mechanics: How Does it Work? The RECAPS process revolves around two key dates you asked about: the RECAPS Date and the Settlement Date . The RECAPS Date: On this day, the NSCC runs a process to identify all eligible trades that have remained unsettled for two business days or more. These "aged" trades are then re-priced to the current market value. This re-pricing is not just a simple recalculation; it generates new settlement instructions. The original, unsettled trade is effectively cancelled and replaced with a new one at the current market price. This is done through the NSCC's Obligation Warehouse. The Settlement Date: This is typically the business day following the RECAPS date. On this date, the financial settlement of the re-priced trades occurs. The difference in value between the original trade price and the new, re-priced value is settled between the two trading parties. This "mark-to-market" adjustment is processed through the members' settlement accounts at the DTCC. Essentially, the process ensures that any gains or losses due to price changes in the underlying security are realized and settled periodically, rather than being deferred until the trade is ultimately settled or cancelled. Are These Dates Used to Check Margin Requirements? Yes, indirectly, this process is closely tied to managing margin and collateral requirements for NSCC members. Here’s how: The NSCC requires its members to post collateral to a clearing fund, which acts as a mutualized guarantee against defaults. The amount of collateral each member must provide is calculated based on their potential risk exposure to the clearinghouse. By re-pricing aged trades to current market values through RECAPS, the NSCC gets a more accurate picture of each member's outstanding obligations and, therefore, their current risk profile. If a member has a large number of unsettled trades that have moved against them in value, the re-pricing will crystallize that loss, which will be settled the next day. This regular re-pricing and settlement of aged trades prevent the build-up of large, unrealized losses that could increase a member's risk profile beyond what their posted collateral can cover. While RECAPS is not the only mechanism for calculating margin (the NSCC has a complex system for daily margin calls based on overall portfolio risk), it is a crucial component for managing the specific risk posed by aged, unsettled transactions. It ensures that the value of these obligations is kept current, which in turn helps ensure that collateral levels remain adequate. -------------------------------------------------------------------------------------------------------------- Future dates of 2025: - November 12, 2025 (Wed) - November 25, 2025 (Tue) - December 11, 2025 (Thu) - December 29, 2025 (Mon) The dates for 2026 haven't been published yet at this time. The RECAPS process is essentially the industry's way of retrying the settlement of all unresolved FTDs, netting outstanding obligations, and gradually forcing resolution (either delivery or buy-in). Monitoring RECAPS cycles is one way to track the lifecycle, accumulation, and eventual resolution (or persistence) of failures to deliver in the U.S. market. The US Stock market has become a game of settlement dates and FTDs, therefore this can be useful to track.

Chỉ báo Pine Script®

của Infinite_Noise

FVG Magic FVG Magic — Fair Value Gaps with Smart Mitigation, Inversion & Auto-Clean-up FVG Magic finds every tradable Fair Value Gap (FVG), shows who powered it, and then manages each gap intelligently as price interacts with it—so your chart stays actionable and clean. Attribution This tool is inspired by the idea popularized in “Volumatic Fair Value Gaps ” by BigBeluga (licensed CC BY-NC-SA 4.0). Credit to BigBeluga for advancing FVG visualization in the community. Important: This is a from-scratch implementation—no code was copied from the original. I expanded the concept substantially with a different detection stack, a gap state machine (ACTIVE → 50% SQ → MITIGATED → INVERSED), auto-clean up rules, lookback/nearest-per-side pruning, zoom-proof volume meters, and timeframe auto-tuning for 15m/H1/H4. What makes this version more accurate Full-coverage detection (no “missed” gaps) Default ICT-minimal rule (Bullish: low > high , Bearish: high < low ) catches all valid 3-candle FVGs. Optional Strict filter (stricter structure checks) for traders who prefer only “clean” gaps. Optional size percentile filter—off by default so nothing is hidden unless you choose to filter. Correct handling of confirmations (wick vs close) Mitigation Source is user-selectable: high/low (wick-based) or close (strict). This avoids false “misses” when you expect wick confirmations (50% or full fill) but your logic required closes. State-aware labelling to prevent misleading data The Bull%/Bear% meter is shown only while a gap is ACTIVE. As soon as a gap is 50% SQ, MITIGATED, or INVERSED, the meter is hidden and replaced with a clear tag—so you never read stale participation stats. Robust zoom behaviour The meter uses a fixed bar-width (not pixels), so it stays proportional and readable at any zoom level. Deterministic lifecycle (no stale boxes) Remove on 50% SQ (instant or delayed). Inversion window after first entry: if price enters but doesn’t invert within N bars, the box auto-removes once fully filled. Inversion clean up: after a confirmed flip, keep for N bars (context) then delete (or 0 = immediate). Result: charts auto-maintain themselves and never “lie” about relevance. Clarity near current price Nearest-per-side (keep N closest bullish & bearish gaps by distance to the midpoint) focuses attention where it matters without altering detection accuracy. Lookback (bars) ensures reproducible behaviour across accounts with different data history. Timeframe-aware defaults Sensible auto-tuning for 15m / H1 / H4 (right-extension length, meter width, inversion windows, clean up bars) to reduce setup friction and improve consistency. What it does (under the hood) Detects FVGs using ICT-minimal (default) or a stricter rule. Samples volume from a 10× lower timeframe to split participation into Bull % / Bear % (sum = 100%). Manages each gap through a state machine: ACTIVE → 50% SQ (midline) → MITIGATED (full) → INVERSED (SR flip after fill). Auto-clean up keeps only relevant levels, per your rules. Dashboard (top-right) displays counts by side and the active state tags. How to use it First run (show everything) Use Strict FVG Filter: OFF Enable Size Filter (percentile): OFF Mitigation Source: high/low (wick-based) or close (stricter), as you prefer. Remove on 50% SQ: ON, Delay: 0 Read the context While ACTIVE, use the Bull%/Bear% meter to gauge demand/supply behind the impulse that created the gap. Confluence with your HTF structure, sessions, VWAP, OB/FVG, RSI/MACD, etc. Trade interactions 50% SQ: often the highest-quality interaction; if removal is ON, the box clears = “job done.” Full mitigation then rejection through the other side → tag changes to INVERSED (acts like SR). Keep for N bars, then auto-remove. Keep the chart tidy (optional) If too busy, enable Size Filter or set Nearest per side to 2–4. Use Lookback (bars) to make behaviour consistent across symbols and histories. Inputs (key ones) Use Strict FVG Filter: OFF(default)/ON Enable Size Filter (percentile): OFF(default)/ON + threshold Mitigation Source: high/low or close Remove on 50% SQ + Delay Inversion window after entry (bars) Remove inversed after (bars) Lookback (bars), Nearest per side (N) Right Extension Bars, Max FVGs, Meter width (bars) Colours: Bullish, Bearish, Inversed fill Suggested defaults (per TF) 15m: Extension 50, Max 12, Inversion window 8, Clean up 8, Meter width 20 H1: Extension 25, Max 10, Inversion window 6, Clean up 6, Meter width 15 H4: Extension 15, Max 8, Inversion window 5, Clean up 5, Meter width 10 Notes & edge cases If a wick hits 50% or the far edge but state doesn’t change, you’re likely on close mode—switch to high/low for wick-based behaviour. If a gap disappears, it likely met a clean up condition (50% removal, inversion window, inversion clean up, nearest-per-side, lookback, or max-cap). Meters are hidden after ACTIVE to avoid stale percentages.

Chỉ báo Pine Script®

Quantum Rotational Field Mapping Quantum Rotational Field Mapping (QRFM): Phase Coherence Detection Through Complex-Plane Oscillator Analysis Quantum Rotational Field Mapping applies complex-plane mathematics and phase-space analysis to oscillator ensembles, identifying high-probability trend ignition points by measuring when multiple independent oscillators achieve phase coherence. Unlike traditional multi-oscillator approaches that simply stack indicators or use boolean AND/OR logic, this system converts each oscillator into a rotating phasor (vector) in the complex plane and calculates the Coherence Index (CI) —a mathematical measure of how tightly aligned the ensemble has become—then generates signals only when alignment, phase direction, and pairwise entanglement all converge. The indicator combines three mathematical frameworks: phasor representation using analytic signal theory to extract phase and amplitude from each oscillator, coherence measurement using vector summation in the complex plane to quantify group alignment, and entanglement analysis that calculates pairwise phase agreement across all oscillator combinations. This creates a multi-dimensional confirmation system that distinguishes between random oscillator noise and genuine regime transitions. What Makes This Original Complex-Plane Phasor Framework This indicator implements classical signal processing mathematics adapted for market oscillators. Each oscillator—whether RSI, MACD, Stochastic, CCI, Williams %R, MFI, ROC, or TSI—is first normalized to a common scale, then converted into a complex-plane representation using an in-phase (I) and quadrature (Q) component. The in-phase component is the oscillator value itself, while the quadrature component is calculated as the first difference (derivative proxy), creating a velocity-aware representation. From these components, the system extracts: Phase (φ) : Calculated as φ = atan2(Q, I), representing the oscillator's position in its cycle (mapped to -180° to +180°) Amplitude (A) : Calculated as A = √(I² + Q²), representing the oscillator's strength or conviction This mathematical approach is fundamentally different from simply reading oscillator values. A phasor captures both where an oscillator is in its cycle (phase angle) and how strongly it's expressing that position (amplitude). Two oscillators can have the same value but be in opposite phases of their cycles—traditional analysis would see them as identical, while QRFM sees them as 180° out of phase (contradictory). Coherence Index Calculation The core innovation is the Coherence Index (CI) , borrowed from physics and signal processing. When you have N oscillators, each with phase φₙ, you can represent each as a unit vector in the complex plane: e^(iφₙ) = cos(φₙ) + i·sin(φₙ). The CI measures what happens when you sum all these vectors: Resultant Vector : R = Σ e^(iφₙ) = Σ cos(φₙ) + i·Σ sin(φₙ) Coherence Index : CI = |R| / N Where |R| is the magnitude of the resultant vector and N is the number of active oscillators. The CI ranges from 0 to 1: CI = 1.0 : Perfect coherence—all oscillators have identical phase angles, vectors point in the same direction, creating maximum constructive interference CI = 0.0 : Complete decoherence—oscillators are randomly distributed around the circle, vectors cancel out through destructive interference 0 < CI < 1 : Partial alignment—some clustering with some scatter This is not a simple average or correlation. The CI captures phase synchronization across the entire ensemble simultaneously. When oscillators phase-lock (align their cycles), the CI spikes regardless of their individual values. This makes it sensitive to regime transitions that traditional indicators miss. Dominant Phase and Direction Detection Beyond measuring alignment strength, the system calculates the dominant phase of the ensemble—the direction the resultant vector points: Dominant Phase : φ_dom = atan2(Σ sin(φₙ), Σ cos(φₙ)) This gives the "average direction" of all oscillator phases, mapped to -180° to +180°: +90° to -90° (right half-plane): Bullish phase dominance +90° to +180° or -90° to -180° (left half-plane): Bearish phase dominance The combination of CI magnitude (coherence strength) and dominant phase angle (directional bias) creates a two-dimensional signal space. High CI alone is insufficient—you need high CI plus dominant phase pointing in a tradeable direction. This dual requirement is what separates QRFM from simple oscillator averaging. Entanglement Matrix and Pairwise Coherence While the CI measures global alignment, the entanglement matrix measures local pairwise relationships. For every pair of oscillators (i, j), the system calculates: E(i,j) = |cos(φᵢ - φⱼ)| This represents the phase agreement between oscillators i and j: E = 1.0 : Oscillators are in-phase (0° or 360° apart) E = 0.0 : Oscillators are in quadrature (90° apart, orthogonal) E between 0 and 1 : Varying degrees of alignment The system counts how many oscillator pairs exceed a user-defined entanglement threshold (e.g., 0.7). This entangled pairs count serves as a confirmation filter: signals require not just high global CI, but also a minimum number of strong pairwise agreements. This prevents false ignitions where CI is high but driven by only two oscillators while the rest remain scattered. The entanglement matrix creates an N×N symmetric matrix that can be visualized as a web—when many cells are bright (high E values), the ensemble is highly interconnected. When cells are dark, oscillators are moving independently. Phase-Lock Tolerance Mechanism A complementary confirmation layer is the phase-lock detector . This calculates the maximum phase spread across all oscillators: For all pairs (i,j), compute angular distance: Δφ = |φᵢ - φⱼ|, wrapping at 180° Max Spread = maximum Δφ across all pairs If max spread < user threshold (e.g., 35°), the ensemble is considered phase-locked —all oscillators are within a narrow angular band. This differs from entanglement: entanglement measures pairwise cosine similarity (magnitude of alignment), while phase-lock measures maximum angular deviation (tightness of clustering). Both must be satisfied for the highest-conviction signals. Multi-Layer Visual Architecture QRFM includes six visual components that represent the same underlying mathematics from different perspectives: Circular Orbit Plot : A polar coordinate grid showing each oscillator as a vector from origin to perimeter. Angle = phase, radius = amplitude. This is a real-time snapshot of the complex plane. When vectors converge (point in similar directions), coherence is high. When scattered randomly, coherence is low. Users can see phase alignment forming before CI numerically confirms it. Phase-Time Heat Map : A 2D matrix with rows = oscillators and columns = time bins. Each cell is colored by the oscillator's phase at that time (using a gradient where color hue maps to angle). Horizontal color bands indicate sustained phase alignment over time. Vertical color bands show moments when all oscillators shared the same phase (ignition points). This provides historical pattern recognition. Entanglement Web Matrix : An N×N grid showing E(i,j) for all pairs. Cells are colored by entanglement strength—bright yellow/gold for high E, dark gray for low E. This reveals which oscillators are driving coherence and which are lagging. For example, if RSI and MACD show high E but Stochastic shows low E with everything, Stochastic is the outlier. Quantum Field Cloud : A background color overlay on the price chart. Color (green = bullish, red = bearish) is determined by dominant phase. Opacity is determined by CI—high CI creates dense, opaque cloud; low CI creates faint, nearly invisible cloud. This gives an atmospheric "feel" for regime strength without looking at numbers. Phase Spiral : A smoothed plot of dominant phase over recent history, displayed as a curve that wraps around price. When the spiral is tight and rotating steadily, the ensemble is in coherent rotation (trending). When the spiral is loose or erratic, coherence is breaking down. Dashboard : A table showing real-time metrics: CI (as percentage), dominant phase (in degrees with directional arrow), field strength (CI × average amplitude), entangled pairs count, phase-lock status (locked/unlocked), quantum state classification ("Ignition", "Coherent", "Collapse", "Chaos"), and collapse risk (recent CI change normalized to 0-100%). Each component is independently toggleable, allowing users to customize their workspace. The orbit plot is the most essential—it provides intuitive, visual feedback on phase alignment that no numerical dashboard can match. Core Components and How They Work Together 1. Oscillator Normalization Engine The foundation is creating a common measurement scale. QRFM supports eight oscillators: RSI : Normalized from to using overbought/oversold levels (70, 30) as anchors MACD Histogram : Normalized by dividing by rolling standard deviation, then clamped to Stochastic %K : Normalized from using (80, 20) anchors CCI : Divided by 200 (typical extreme level), clamped to Williams %R : Normalized from using (-20, -80) anchors MFI : Normalized from using (80, 20) anchors ROC : Divided by 10, clamped to TSI : Divided by 50, clamped to Each oscillator can be individually enabled/disabled. Only active oscillators contribute to phase calculations. The normalization removes scale differences—a reading of +0.8 means "strongly bullish" regardless of whether it came from RSI or TSI. 2. Analytic Signal Construction For each active oscillator at each bar, the system constructs the analytic signal: In-Phase (I) : The normalized oscillator value itself Quadrature (Q) : The bar-to-bar change in the normalized value (first derivative approximation) This creates a 2D representation: (I, Q). The phase is extracted as: φ = atan2(Q, I) × (180 / π) This maps the oscillator to a point on the unit circle. An oscillator at the same value but rising (positive Q) will have a different phase than one that is falling (negative Q). This velocity-awareness is critical—it distinguishes between "at resistance and stalling" versus "at resistance and breaking through." The amplitude is extracted as: A = √(I² + Q²) This represents the distance from origin in the (I, Q) plane. High amplitude means the oscillator is far from neutral (strong conviction). Low amplitude means it's near zero (weak/transitional state). 3. Coherence Calculation Pipeline For each bar (or every Nth bar if phase sample rate > 1 for performance): Step 1 : Extract phase φₙ for each of the N active oscillators Step 2 : Compute complex exponentials: Zₙ = e^(i·φₙ·π/180) = cos(φₙ·π/180) + i·sin(φₙ·π/180) Step 3 : Sum the complex exponentials: R = Σ Zₙ = (Σ cos φₙ) + i·(Σ sin φₙ) Step 4 : Calculate magnitude: |R| = √ Step 5 : Normalize by count: CI_raw = |R| / N Step 6 : Smooth the CI: CI = SMA(CI_raw, smoothing_window) The smoothing step (default 2 bars) removes single-bar noise spikes while preserving structural coherence changes. Users can adjust this to control reactivity versus stability. The dominant phase is calculated as: φ_dom = atan2(Σ sin φₙ, Σ cos φₙ) × (180 / π) This is the angle of the resultant vector R in the complex plane. 4. Entanglement Matrix Construction For all unique pairs of oscillators (i, j) where i < j: Step 1 : Get phases φᵢ and φⱼ Step 2 : Compute phase difference: Δφ = φᵢ - φⱼ (in radians) Step 3 : Calculate entanglement: E(i,j) = |cos(Δφ)| Step 4 : Store in symmetric matrix: matrix = matrix = E(i,j) The matrix is then scanned: count how many E(i,j) values exceed the user-defined threshold (default 0.7). This count is the entangled pairs metric. For visualization, the matrix is rendered as an N×N table where cell brightness maps to E(i,j) intensity. 5. Phase-Lock Detection Step 1 : For all unique pairs (i, j), compute angular distance: Δφ = |φᵢ - φⱼ| Step 2 : Wrap angles: if Δφ > 180°, set Δφ = 360° - Δφ Step 3 : Find maximum: max_spread = max(Δφ) across all pairs Step 4 : Compare to tolerance: phase_locked = (max_spread < tolerance) If phase_locked is true, all oscillators are within the specified angular cone (e.g., 35°). This is a boolean confirmation filter. 6. Signal Generation Logic Signals are generated through multi-layer confirmation: Long Ignition Signal : CI crosses above ignition threshold (e.g., 0.80) AND dominant phase is in bullish range (-90° < φ_dom < +90°) AND phase_locked = true AND entangled_pairs >= minimum threshold (e.g., 4) Short Ignition Signal : CI crosses above ignition threshold AND dominant phase is in bearish range (φ_dom < -90° OR φ_dom > +90°) AND phase_locked = true AND entangled_pairs >= minimum threshold Collapse Signal : CI at bar minus CI at current bar > collapse threshold (e.g., 0.55) AND CI at bar was above 0.6 (must collapse from coherent state, not from already-low state) These are strict conditions. A high CI alone does not generate a signal—dominant phase must align with direction, oscillators must be phase-locked, and sufficient pairwise entanglement must exist. This multi-factor gating dramatically reduces false signals compared to single-condition triggers. Calculation Methodology Phase 1: Oscillator Computation and Normalization On each bar, the system calculates the raw values for all enabled oscillators using standard Pine Script functions: RSI: ta.rsi(close, length) MACD: ta.macd() returning histogram component Stochastic: ta.stoch() smoothed with ta.sma() CCI: ta.cci(close, length) Williams %R: ta.wpr(length) MFI: ta.mfi(hlc3, length) ROC: ta.roc(close, length) TSI: ta.tsi(close, short, long) Each raw value is then passed through a normalization function: normalize(value, overbought_level, oversold_level) = 2 × (value - oversold) / (overbought - oversold) - 1 This maps the oscillator's typical range to , where -1 represents extreme bearish, 0 represents neutral, and +1 represents extreme bullish. For oscillators without fixed ranges (MACD, ROC, TSI), statistical normalization is used: divide by a rolling standard deviation or fixed divisor, then clamp to . Phase 2: Phasor Extraction For each normalized oscillator value val: I = val (in-phase component) Q = val - val (quadrature component, first difference) Phase calculation: phi_rad = atan2(Q, I) phi_deg = phi_rad × (180 / π) Amplitude calculation: A = √(I² + Q²) These values are stored in arrays: osc_phases and osc_amps for each oscillator n. Phase 3: Complex Summation and Coherence Initialize accumulators: sum_cos = 0 sum_sin = 0 For each oscillator n = 0 to N-1: phi_rad = osc_phases × (π / 180) sum_cos += cos(phi_rad) sum_sin += sin(phi_rad) Resultant magnitude: resultant_mag = √(sum_cos² + sum_sin²) Coherence Index (raw): CI_raw = resultant_mag / N Smoothed CI: CI = SMA(CI_raw, smoothing_window) Dominant phase: phi_dom_rad = atan2(sum_sin, sum_cos) phi_dom_deg = phi_dom_rad × (180 / π) Phase 4: Entanglement Matrix Population For i = 0 to N-2: For j = i+1 to N-1: phi_i = osc_phases × (π / 180) phi_j = osc_phases × (π / 180) delta_phi = phi_i - phi_j E = |cos(delta_phi)| matrix_index_ij = i × N + j matrix_index_ji = j × N + i entangle_matrix = E entangle_matrix = E if E >= threshold: entangled_pairs += 1 The matrix uses flat array storage with index mapping: index(row, col) = row × N + col. Phase 5: Phase-Lock Check max_spread = 0 For i = 0 to N-2: For j = i+1 to N-1: delta = |osc_phases - osc_phases | if delta > 180: delta = 360 - delta max_spread = max(max_spread, delta) phase_locked = (max_spread < tolerance) Phase 6: Signal Evaluation Ignition Long : ignition_long = (CI crosses above threshold) AND (phi_dom > -90 AND phi_dom < 90) AND phase_locked AND (entangled_pairs >= minimum) Ignition Short : ignition_short = (CI crosses above threshold) AND (phi_dom < -90 OR phi_dom > 90) AND phase_locked AND (entangled_pairs >= minimum) Collapse : CI_prev = CI collapse = (CI_prev - CI > collapse_threshold) AND (CI_prev > 0.6) All signals are evaluated on bar close. The crossover and crossunder functions ensure signals fire only once when conditions transition from false to true. Phase 7: Field Strength and Visualization Metrics Average Amplitude : avg_amp = (Σ osc_amps ) / N Field Strength : field_strength = CI × avg_amp Collapse Risk (for dashboard): collapse_risk = (CI - CI) / max(CI , 0.1) collapse_risk_pct = clamp(collapse_risk × 100, 0, 100) Quantum State Classification : if (CI > threshold AND phase_locked): state = "Ignition" else if (CI > 0.6): state = "Coherent" else if (collapse): state = "Collapse" else: state = "Chaos" Phase 8: Visual Rendering Orbit Plot : For each oscillator, convert polar (phase, amplitude) to Cartesian (x, y) for grid placement: radius = amplitude × grid_center × 0.8 x = radius × cos(phase × π/180) y = radius × sin(phase × π/180) col = center + x (mapped to grid coordinates) row = center - y Heat Map : For each oscillator row and time column, retrieve historical phase value at lookback = (columns - col) × sample_rate, then map phase to color using a hue gradient. Entanglement Web : Render matrix as table cell with background color opacity = E(i,j). Field Cloud : Background color = (phi_dom > -90 AND phi_dom < 90) ? green : red, with opacity = mix(min_opacity, max_opacity, CI). All visual components render only on the last bar (barstate.islast) to minimize computational overhead. How to Use This Indicator Step 1 : Apply QRFM to your chart. It works on all timeframes and asset classes, though 15-minute to 4-hour timeframes provide the best balance of responsiveness and noise reduction. Step 2 : Enable the dashboard (default: top right) and the circular orbit plot (default: middle left). These are your primary visual feedback tools. Step 3 : Optionally enable the heat map, entanglement web, and field cloud based on your preference. New users may find all visuals overwhelming; start with dashboard + orbit plot. Step 4 : Observe for 50-100 bars to let the indicator establish baseline coherence patterns. Markets have different "normal" CI ranges—some instruments naturally run higher or lower coherence. Understanding the Circular Orbit Plot The orbit plot is a polar grid showing oscillator vectors in real-time: Center point : Neutral (zero phase and amplitude) Each vector : A line from center to a point on the grid Vector angle : The oscillator's phase (0° = right/east, 90° = up/north, 180° = left/west, -90° = down/south) Vector length : The oscillator's amplitude (short = weak signal, long = strong signal) Vector label : First letter of oscillator name (R = RSI, M = MACD, etc.) What to watch : Convergence : When all vectors cluster in one quadrant or sector, CI is rising and coherence is forming. This is your pre-signal warning. Scatter : When vectors point in random directions (360° spread), CI is low and the market is in a non-trending or transitional regime. Rotation : When the cluster rotates smoothly around the circle, the ensemble is in coherent oscillation—typically seen during steady trends. Sudden flips : When the cluster rapidly jumps from one side to the opposite (e.g., +90° to -90°), a phase reversal has occurred—often coinciding with trend reversals. Example: If you see RSI, MACD, and Stochastic all pointing toward 45° (northeast) with long vectors, while CCI, TSI, and ROC point toward 40-50° as well, coherence is high and dominant phase is bullish. Expect an ignition signal if CI crosses threshold. Reading Dashboard Metrics The dashboard provides numerical confirmation of what the orbit plot shows visually: CI : Displays as 0-100%. Above 70% = high coherence (strong regime), 40-70% = moderate, below 40% = low (poor conditions for trend entries). Dom Phase : Angle in degrees with directional arrow. ⬆ = bullish bias, ⬇ = bearish bias, ⬌ = neutral. Field Strength : CI weighted by amplitude. High values (> 0.6) indicate not just alignment but strong alignment. Entangled Pairs : Count of oscillator pairs with E > threshold. Higher = more confirmation. If minimum is set to 4, you need at least 4 pairs entangled for signals. Phase Lock : 🔒 YES (all oscillators within tolerance) or 🔓 NO (spread too wide). State : Real-time classification: 🚀 IGNITION: CI just crossed threshold with phase-lock ⚡ COHERENT: CI is high and stable 💥 COLLAPSE: CI has dropped sharply 🌀 CHAOS: Low CI, scattered phases Collapse Risk : 0-100% scale based on recent CI change. Above 50% warns of imminent breakdown. Interpreting Signals Long Ignition (Blue Triangle Below Price) : Occurs when CI crosses above threshold (e.g., 0.80) Dominant phase is in bullish range (-90° to +90°) All oscillators are phase-locked (within tolerance) Minimum entangled pairs requirement met Interpretation : The oscillator ensemble has transitioned from disorder to coherent bullish alignment. This is a high-probability long entry point. The multi-layer confirmation (CI + phase direction + lock + entanglement) ensures this is not a single-oscillator whipsaw. Short Ignition (Red Triangle Above Price) : Same conditions as long, but dominant phase is in bearish range (< -90° or > +90°) Interpretation : Coherent bearish alignment has formed. High-probability short entry. Collapse (Circles Above and Below Price) : CI has dropped by more than the collapse threshold (e.g., 0.55) over a 5-bar window CI was previously above 0.6 (collapsing from coherent state) Interpretation : Phase coherence has broken down. If you are in a position, this is an exit warning. If looking to enter, stand aside—regime is transitioning. Phase-Time Heat Map Patterns Enable the heat map and position it at bottom right. The rows represent individual oscillators, columns represent time bins (most recent on left). Pattern: Horizontal Color Bands If a row (e.g., RSI) shows consistent color across columns (say, green for several bins), that oscillator has maintained stable phase over time. If all rows show horizontal bands of similar color, the entire ensemble has been phase-locked for an extended period—this is a strong trending regime. Pattern: Vertical Color Bands If a column (single time bin) shows all cells with the same or very similar color, that moment in time had high coherence. These vertical bands often align with ignition signals or major price pivots. Pattern: Rainbow Chaos If cells are random colors (red, green, yellow mixed with no pattern), coherence is low. The ensemble is scattered. Avoid trading during these periods unless you have external confirmation. Pattern: Color Transition If you see a row transition from red to green (or vice versa) sharply, that oscillator has phase-flipped. If multiple rows do this simultaneously, a regime change is underway. Entanglement Web Analysis Enable the web matrix (default: opposite corner from heat map). It shows an N×N grid where N = number of active oscillators. Bright Yellow/Gold Cells : High pairwise entanglement. For example, if the RSI-MACD cell is bright gold, those two oscillators are moving in phase. If the RSI-Stochastic cell is bright, they are entangled as well. Dark Gray Cells : Low entanglement. Oscillators are decorrelated or in quadrature. Diagonal : Always marked with "—" because an oscillator is always perfectly entangled with itself. How to use : Scan for clustering: If most cells are bright, coherence is high across the board. If only a few cells are bright, coherence is driven by a subset (e.g., RSI and MACD are aligned, but nothing else is—weak signal). Identify laggards: If one row/column is entirely dark, that oscillator is the outlier. You may choose to disable it or monitor for when it joins the group (late confirmation). Watch for web formation: During low-coherence periods, the matrix is mostly dark. As coherence builds, cells begin lighting up. A sudden "web" of connections forming visually precedes ignition signals. Trading Workflow Step 1: Monitor Coherence Level Check the dashboard CI metric or observe the orbit plot. If CI is below 40% and vectors are scattered, conditions are poor for trend entries. Wait. Step 2: Detect Coherence Building When CI begins rising (say, from 30% to 50-60%) and you notice vectors on the orbit plot starting to cluster, coherence is forming. This is your alert phase—do not enter yet, but prepare. Step 3: Confirm Phase Direction Check the dominant phase angle and the orbit plot quadrant where clustering is occurring: Clustering in right half (0° to ±90°): Bullish bias forming Clustering in left half (±90° to 180°): Bearish bias forming Verify the dashboard shows the corresponding directional arrow (⬆ or ⬇). Step 4: Wait for Signal Confirmation Do not enter based on rising CI alone. Wait for the full ignition signal: CI crosses above threshold Phase-lock indicator shows 🔒 YES Entangled pairs count >= minimum Directional triangle appears on chart This ensures all layers have aligned. Step 5: Execute Entry Long : Blue triangle below price appears → enter long Short : Red triangle above price appears → enter short Step 6: Position Management Initial Stop : Place stop loss based on your risk management rules (e.g., recent swing low/high, ATR-based buffer). Monitoring : Watch the field cloud density. If it remains opaque and colored in your direction, the regime is intact. Check dashboard collapse risk. If it rises above 50%, prepare for exit. Monitor the orbit plot. If vectors begin scattering or the cluster flips to the opposite side, coherence is breaking. Exit Triggers : Collapse signal fires (circles appear) Dominant phase flips to opposite half-plane CI drops below 40% (coherence lost) Price hits your profit target or trailing stop Step 7: Post-Exit Analysis After exiting, observe whether a new ignition forms in the opposite direction (reversal) or if CI remains low (transition to range). Use this to decide whether to re-enter, reverse, or stand aside. Best Practices Use Price Structure as Context QRFM identifies when coherence forms but does not specify where price will go. Combine ignition signals with support/resistance levels, trendlines, or chart patterns. For example: Long ignition near a major support level after a pullback: high-probability bounce Long ignition in the middle of a range with no structure: lower probability Multi-Timeframe Confirmation Open QRFM on two timeframes simultaneously: Higher timeframe (e.g., 4-hour): Use CI level to determine regime bias. If 4H CI is above 60% and dominant phase is bullish, the market is in a bullish regime. Lower timeframe (e.g., 15-minute): Execute entries on ignition signals that align with the higher timeframe bias. This prevents counter-trend trades and increases win rate. Distinguish Between Regime Types High CI, stable dominant phase (State: Coherent) : Trending market. Ignitions are continuation signals; collapses are profit-taking or reversal warnings. Low CI, erratic dominant phase (State: Chaos) : Ranging or choppy market. Avoid ignition signals or reduce position size. Wait for coherence to establish. Moderate CI with frequent collapses : Whipsaw environment. Use wider stops or stand aside. Adjust Parameters to Instrument and Timeframe Crypto/Forex (high volatility) : Lower ignition threshold (0.65-0.75), lower CI smoothing (2-3), shorter oscillator lengths (7-10). Stocks/Indices (moderate volatility) : Standard settings (threshold 0.75-0.85, smoothing 5-7, oscillator lengths 14). Lower timeframes (5-15 min) : Reduce phase sample rate to 1-2 for responsiveness. Higher timeframes (daily+) : Increase CI smoothing and oscillator lengths for noise reduction. Use Entanglement Count as Conviction Filter The minimum entangled pairs setting controls signal strictness: Low (1-2) : More signals, lower quality (acceptable if you have other confirmation) Medium (3-5) : Balanced (recommended for most traders) High (6+) : Very strict, fewer signals, highest quality Adjust based on your trade frequency preference and risk tolerance. Monitor Oscillator Contribution Use the entanglement web to see which oscillators are driving coherence. If certain oscillators are consistently dark (low E with all others), they may be adding noise. Consider disabling them. For example: On low-volume instruments, MFI may be unreliable → disable MFI On strongly trending instruments, mean-reversion oscillators (Stochastic, RSI) may lag → reduce weight or disable Respect the Collapse Signal Collapse events are early warnings. Price may continue in the original direction for several bars after collapse fires, but the underlying regime has weakened. Best practice: If in profit: Take partial or full profit on collapse If at breakeven/small loss: Exit immediately If collapse occurs shortly after entry: Likely a false ignition; exit to avoid drawdown Collapses do not guarantee immediate reversals—they signal uncertainty . Combine with Volume Analysis If your instrument has reliable volume: Ignitions with expanding volume: Higher conviction Ignitions with declining volume: Weaker, possibly false Collapses with volume spikes: Strong reversal signal Collapses with low volume: May just be consolidation Volume is not built into QRFM (except via MFI), so add it as external confirmation. Observe the Phase Spiral The spiral provides a quick visual cue for rotation consistency: Tight, smooth spiral : Ensemble is rotating coherently (trending) Loose, erratic spiral : Phase is jumping around (ranging or transitional) If the spiral tightens, coherence is building. If it loosens, coherence is dissolving. Do Not Overtrade Low-Coherence Periods When CI is persistently below 40% and the state is "Chaos," the market is not in a regime where phase analysis is predictive. During these times: Reduce position size Widen stops Wait for coherence to return QRFM's strength is regime detection. If there is no regime, the tool correctly signals "stand aside." Use Alerts Strategically Set alerts for: Long Ignition Short Ignition Collapse Phase Lock (optional) Configure alerts to "Once per bar close" to avoid intrabar repainting and noise. When an alert fires, manually verify: Orbit plot shows clustering Dashboard confirms all conditions Price structure supports the trade Do not blindly trade alerts—use them as prompts for analysis. Ideal Market Conditions Best Performance Instruments : Liquid, actively traded markets (major forex pairs, large-cap stocks, major indices, top-tier crypto) Instruments with clear cyclical oscillator behavior (avoid extremely illiquid or manipulated markets) Timeframes : 15-minute to 4-hour: Optimal balance of noise reduction and responsiveness 1-hour to daily: Slower, higher-conviction signals; good for swing trading 5-minute: Acceptable for scalping if parameters are tightened and you accept more noise Market Regimes : Trending markets with periodic retracements (where oscillators cycle through phases predictably) Breakout environments (coherence forms before/during breakout; collapse occurs at exhaustion) Rotational markets with clear swings (oscillators phase-lock at turning points) Volatility : Moderate to high volatility (oscillators have room to move through their ranges) Stable volatility regimes (sudden VIX spikes or flash crashes may create false collapses) Challenging Conditions Instruments : Very low liquidity markets (erratic price action creates unstable oscillator phases) Heavily news-driven instruments (fundamentals may override technical coherence) Highly correlated instruments (oscillators may all reflect the same underlying factor, reducing independence) Market Regimes : Deep, prolonged consolidation (oscillators remain near neutral, CI is chronically low, few signals fire) Extreme chop with no directional bias (oscillators whipsaw, coherence never establishes) Gap-driven markets (large overnight gaps create phase discontinuities) Timeframes : Sub-5-minute charts: Noise dominates; oscillators flip rapidly; coherence is fleeting and unreliable Weekly/monthly: Oscillators move extremely slowly; signals are rare; better suited for long-term positioning than active trading Special Cases : During major economic releases or earnings: Oscillators may lag price or become decorrelated as fundamentals overwhelm technicals. Reduce position size or stand aside. In extremely low-volatility environments (e.g., holiday periods): Oscillators compress to neutral, CI may be artificially high due to lack of movement, but signals lack follow-through. Adaptive Behavior QRFM is designed to self-adapt to poor conditions: When coherence is genuinely absent, CI remains low and signals do not fire When only a subset of oscillators aligns, entangled pairs count stays below threshold and signals are filtered out When phase-lock cannot be achieved (oscillators too scattered), the lock filter prevents signals This means the indicator will naturally produce fewer (or zero) signals during unfavorable conditions, rather than generating false signals. This is a feature —it keeps you out of low-probability trades. Parameter Optimization by Trading Style Scalping (5-15 Minute Charts) Goal : Maximum responsiveness, accept higher noise Oscillator Lengths : RSI: 7-10 MACD: 8/17/6 Stochastic: 8-10, smooth 2-3 CCI: 14-16 Others: 8-12 Coherence Settings : CI Smoothing Window: 2-3 bars (fast reaction) Phase Sample Rate: 1 (every bar) Ignition Threshold: 0.65-0.75 (lower for more signals) Collapse Threshold: 0.40-0.50 (earlier exit warnings) Confirmation : Phase Lock Tolerance: 40-50° (looser, easier to achieve) Min Entangled Pairs: 2-3 (fewer oscillators required) Visuals : Orbit Plot + Dashboard only (reduce screen clutter for fast decisions) Disable heavy visuals (heat map, web) for performance Alerts : Enable all ignition and collapse alerts Set to "Once per bar close" Day Trading (15-Minute to 1-Hour Charts) Goal : Balance between responsiveness and reliability Oscillator Lengths : RSI: 14 (standard) MACD: 12/26/9 (standard) Stochastic: 14, smooth 3 CCI: 20 Others: 10-14 Coherence Settings : CI Smoothing Window: 3-5 bars (balanced) Phase Sample Rate: 2-3 Ignition Threshold: 0.75-0.85 (moderate selectivity) Collapse Threshold: 0.50-0.55 (balanced exit timing) Confirmation : Phase Lock Tolerance: 30-40° (moderate tightness) Min Entangled Pairs: 4-5 (reasonable confirmation) Visuals : Orbit Plot + Dashboard + Heat Map or Web (choose one) Field Cloud for regime backdrop Alerts : Ignition and collapse alerts Optional phase-lock alert for advance warning Swing Trading (4-Hour to Daily Charts) Goal : High-conviction signals, minimal noise, fewer trades Oscillator Lengths : RSI: 14-21 MACD: 12/26/9 or 19/39/9 (longer variant) Stochastic: 14-21, smooth 3-5 CCI: 20-30 Others: 14-20 Coherence Settings : CI Smoothing Window: 5-10 bars (very smooth) Phase Sample Rate: 3-5 Ignition Threshold: 0.80-0.90 (high bar for entry) Collapse Threshold: 0.55-0.65 (only significant breakdowns) Confirmation : Phase Lock Tolerance: 20-30° (tight clustering required) Min Entangled Pairs: 5-7 (strong confirmation) Visuals : All modules enabled (you have time to analyze) Heat Map for multi-bar pattern recognition Web for deep confirmation analysis Alerts : Ignition and collapse Review manually before entering (no rush) Position/Long-Term Trading (Daily to Weekly Charts) Goal : Rare, very high-conviction regime shifts Oscillator Lengths : RSI: 21-30 MACD: 19/39/9 or 26/52/12 Stochastic: 21, smooth 5 CCI: 30-50 Others: 20-30 Coherence Settings : CI Smoothing Window: 10-14 bars Phase Sample Rate: 5 (every 5th bar to reduce computation) Ignition Threshold: 0.85-0.95 (only extreme alignment) Collapse Threshold: 0.60-0.70 (major regime breaks only) Confirmation : Phase Lock Tolerance: 15-25° (very tight) Min Entangled Pairs: 6+ (broad consensus required) Visuals : Dashboard + Orbit Plot for quick checks Heat Map to study historical coherence patterns Web to verify deep entanglement Alerts : Ignition only (collapses are less critical on long timeframes) Manual review with fundamental analysis overlay Performance Optimization (Low-End Systems) If you experience lag or slow rendering: Reduce Visual Load : Orbit Grid Size: 8-10 (instead of 12+) Heat Map Time Bins: 5-8 (instead of 10+) Disable Web Matrix entirely if not needed Disable Field Cloud and Phase Spiral Reduce Calculation Frequency : Phase Sample Rate: 5-10 (calculate every 5-10 bars) Max History Depth: 100-200 (instead of 500+) Disable Unused Oscillators : If you only want RSI, MACD, and Stochastic, disable the other five. Fewer oscillators = smaller matrices, faster loops. Simplify Dashboard : Choose "Small" dashboard size Reduce number of metrics displayed These settings will not significantly degrade signal quality (signals are based on bar-close calculations, which remain accurate), but will improve chart responsiveness. Important Disclaimers This indicator is a technical analysis tool designed to identify periods of phase coherence across an ensemble of oscillators. It is not a standalone trading system and does not guarantee profitable trades. The Coherence Index, dominant phase, and entanglement metrics are mathematical calculations applied to historical price data—they measure past oscillator behavior and do not predict future price movements with certainty. No Predictive Guarantee : High coherence indicates that oscillators are currently aligned, which historically has coincided with trending or directional price movement. However, past alignment does not guarantee future trends. Markets can remain coherent while prices consolidate, or lose coherence suddenly due to news, liquidity changes, or other factors not captured by oscillator mathematics. Signal Confirmation is Probabilistic : The multi-layer confirmation system (CI threshold + dominant phase + phase-lock + entanglement) is designed to filter out low-probability setups. This increases the proportion of valid signals relative to false signals, but does not eliminate false signals entirely. Users should combine QRFM with additional analysis—support and resistance levels, volume confirmation, multi-timeframe alignment, and fundamental context—before executing trades. Collapse Signals are Warnings, Not Reversals : A coherence collapse indicates that the oscillator ensemble has lost alignment. This often precedes trend exhaustion or reversals, but can also occur during healthy pullbacks or consolidations. Price may continue in the original direction after a collapse. Use collapses as risk management cues (tighten stops, take partial profits) rather than automatic reversal entries. Market Regime Dependency : QRFM performs best in markets where oscillators exhibit cyclical, mean-reverting behavior and where trends are punctuated by retracements. In markets dominated by fundamental shocks, gap openings, or extreme low-liquidity conditions, oscillator coherence may be less reliable. During such periods, reduce position size or stand aside. Risk Management is Essential : All trading involves risk of loss. Use appropriate stop losses, position sizing, and risk-per-trade limits. The indicator does not specify stop loss or take profit levels—these must be determined by the user based on their risk tolerance and account size. Never risk more than you can afford to lose. Parameter Sensitivity : The indicator's behavior changes with input parameters. Aggressive settings (low thresholds, loose tolerances) produce more signals with lower average quality. Conservative settings (high thresholds, tight tolerances) produce fewer signals with higher average quality. Users should backtest and forward-test parameter sets on their specific instruments and timeframes before committing real capital. No Repainting by Design : All signal conditions are evaluated on bar close using bar-close values. However, the visual components (orbit plot, heat map, dashboard) update in real-time during bar formation for monitoring purposes. For trade execution, rely on the confirmed signals (triangles and circles) that appear only after the bar closes. Computational Load : QRFM performs extensive calculations, including nested loops for entanglement matrices and real-time table rendering. On lower-powered devices or when running multiple indicators simultaneously, users may experience lag. Use the performance optimization settings (reduce visual complexity, increase phase sample rate, disable unused oscillators) to improve responsiveness. This system is most effective when used as one component within a broader trading methodology that includes sound risk management, multi-timeframe analysis, market context awareness, and disciplined execution. It is a tool for regime detection and signal confirmation, not a substitute for comprehensive trade planning. Technical Notes Calculation Timing : All signal logic (ignition, collapse) is evaluated using bar-close values. The barstate.isconfirmed or implicit bar-close behavior ensures signals do not repaint. Visual components (tables, plots) render on every tick for real-time feedback but do not affect signal generation. Phase Wrapping : Phase angles are calculated in the range -180° to +180° using atan2. Angular distance calculations account for wrapping (e.g., the distance between +170° and -170° is 20°, not 340°). This ensures phase-lock detection works correctly across the ±180° boundary. Array Management : The indicator uses fixed-size arrays for oscillator phases, amplitudes, and the entanglement matrix. The maximum number of oscillators is 8. If fewer oscillators are enabled, array sizes shrink accordingly (only active oscillators are processed). Matrix Indexing : The entanglement matrix is stored as a flat array with size N×N, where N is the number of active oscillators. Index mapping: index(row, col) = row × N + col. Symmetric pairs (i,j) and (j,i) are stored identically. Normalization Stability : Oscillators are normalized to using fixed reference levels (e.g., RSI overbought/oversold at 70/30). For unbounded oscillators (MACD, ROC, TSI), statistical normalization (division by rolling standard deviation) is used, with clamping to prevent extreme outliers from distorting phase calculations. Smoothing and Lag : The CI smoothing window (SMA) introduces lag proportional to the window size. This is intentional—it filters out single-bar noise spikes in coherence. Users requiring faster reaction can reduce the smoothing window to 1-2 bars, at the cost of increased sensitivity to noise. Complex Number Representation : Pine Script does not have native complex number types. Complex arithmetic is implemented using separate real and imaginary accumulators (sum_cos, sum_sin) and manual calculation of magnitude (sqrt(real² + imag²)) and argument (atan2(imag, real)). Lookback Limits : The indicator respects Pine Script's maximum lookback constraints. Historical phase and amplitude values are accessed using the operator, with lookback limited to the chart's available bar history (max_bars_back=5000 declared). Visual Rendering Performance : Tables (orbit plot, heat map, web, dashboard) are conditionally deleted and recreated on each update using table.delete() and table.new(). This prevents memory leaks but incurs redraw overhead. Rendering is restricted to barstate.islast (last bar) to minimize computational load—historical bars do not render visuals. Alert Condition Triggers : alertcondition() functions evaluate on bar close when their boolean conditions transition from false to true. Alerts do not fire repeatedly while a condition remains true (e.g., CI stays above threshold for 10 bars fires only once on the initial cross). Color Gradient Functions : The phaseColor() function maps phase angles to RGB hues using sine waves offset by 120° (red, green, blue channels). This creates a continuous spectrum where -180° to +180° spans the full color wheel. The amplitudeColor() function maps amplitude to grayscale intensity. The coherenceColor() function uses cos(phase) to map contribution to CI (positive = green, negative = red). No External Data Requests : QRFM operates entirely on the chart's symbol and timeframe. It does not use request.security() or access external data sources. All calculations are self-contained, avoiding lookahead bias from higher-timeframe requests. Deterministic Behavior : Given identical input parameters and price data, QRFM produces identical outputs. There are no random elements, probabilistic sampling, or time-of-day dependencies. — Dskyz, Engineering precision. Trading coherence.

Chỉ báo Pine Script®

của DskyzInvestments

Futures Gann Month Builds a a continuous chart of the same month for a futures contract (e.g. ZSH2026). This means such a chart consists of March '22, March '23, March '24, March '25, March '26... The script goes back 20 years at most (depending on the current ticker selected in TradingView).

Chỉ báo Pine Script®

của Yago_Garcia

Cập nhật

PG ATM Strike Line with Call & Put Premiums Pine Script: ATM Strike Line with Call & Put Premiums (Simplified)This Pine Script for TradingView displays the At-The-Money (ATM) strike price, futures price, call/put premiums (time value), and two ratios—Premium Ratio (PR) and Volume Ratio (VR)—for a user-selected underlying asset (e.g., NIFTY, BANKNIFTY, or stocks). It helps traders gauge near-term market direction using options data.How the Script WorksInputs:Expiry: Select year (e.g., '25), month (01–12), day (01–31) for option expiry (e.g., '251028'). Timeframe: Choose data timeframe (e.g., Daily, 15-min). Symbol: Auto-detects chart symbol or select from Indian indices/stocks. Strike: Auto-ATM (based on futures) or manual strike input. Interval: Auto (e.g., 100 for NIFTY) or custom strike interval. Colors: Customizable for ATM line, labels (Futures Price, CPR, PPR, VR, PR). Calculations:Futures Price (FP): Fetches front-month futures price (e.g., NSE:NIFTY1!). ATM Strike: Rounds futures price to nearest strike interval. Option Data: Retrieves Last Traded Price (LTP) and volume for ATM call/put options (e.g., NSE:NIFTY251028C24200). Call Premium (CPR): Call LTP minus intrinsic value (max(0, FP - Strike)). Put Premium (PPR): Put LTP minus intrinsic value (max(0, Strike - FP)). Premium Ratio (PR): PPR / CPR. Volume Ratio (VR): Put Volume / Call Volume. Visuals:Draws ATM strike line on chart. Displays labels: FP (futures price), CPR (call premium), PPR (put premium), VR, PR. VR/PR labels: Red (≥ 1.25, bearish), Green (≤ 0.75, bullish), Gray (0.75–1.25, neutral). Updates on last confirmed bar to avoid redraws. Using PR and VR for Market DirectionPremium Ratio (PR):PR ≥ 1.25 (Red): High put premiums suggest bearish sentiment (expect price drop). PR ≤ 0.75 (Green): High call premiums suggest bullish sentiment (expect price rise). 0.75 < PR < 1.25 (Gray): Neutral, no clear direction. Use: High PR favors bearish trades (e.g., buy puts); low PR favors bullish trades (e.g., buy calls). Volume Ratio (VR):VR ≥ 1.25 (Red): High put volume indicates bearish activity. VR ≤ 0.75 (Green): High call volume indicates bullish activity. 0.75 < VR < 1.25 (Gray): Neutral trading activity. Use: High VR suggests bearish moves; low VR suggests bullish moves. Combined Signals:High PR & VR: Strong bearish signal; consider put buying or call selling. Low PR & VR: Strong bullish signal; consider call buying or put selling. Mixed/Neutral: Use price action or support/resistance for confirmation. Tips:Combine with technical analysis (e.g., trends, levels). Match timeframe to trading horizon (e.g., 15-min for intraday). Monitor FP for context; check volatility or news for accuracy. ExampleNIFTY: FP = 24,237.50, ATM = 24,200, CPR = 120.25, PPR = 180.50, PR = 1.50 (Red), VR = 1.30 (Red). Insight: High PR/VR suggests bearish bias; consider bearish trades if price nears resistance. Action: Buy puts or exit longs, confirm with price action. Conclusion: This script provides a concise tool for options traders, showing ATM strike, premiums, and PR/VR ratios. High PR/VR (≥ 1.25) signals bearish sentiment, low PR/VR (≤ 0.75) signals bullish sentiment, and neutral (0.75–1.25) suggests indecision. Combine with technical analysis for robust trading decisions in the Indian options market.

Chỉ báo Pine Script®

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Select market data provided by ICE Data Services. Select reference data provided by FactSet. Copyright © 2025 FactSet Research Systems Inc.Copyright © 2025, American Bankers Association. CUSIP Database provided by FactSet Research Systems Inc. All rights reserved. SEC fillings and other documents provided by Quartr.© 2025 TradingView, Inc.

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Người làm việc tự do

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