Quantitativetrading — Penunjuk dan Strategi

EURUSD/Forex Multi-Layer Statistical Regression Strategy v2 📌 EUR/USD Multi-Layer Statistical Regression Strategy v2 This strategy uses multi-layer linear regression models (short, medium, and long-term) with adaptive statistical validation to generate high-confidence trading signals on EUR/USD. It combines rigorous statistical checks, dynamic weighting, and risk management into a single robust framework. 🔍 Core Methodology Three Regression Layers: Short-term, medium-term, and long-term linear regressions. Statistical Validation: R², correlation, and slope significance filters. Adaptive thresholds that adjust based on recent market behavior. Dynamic Ensemble: Signals from each layer are combined using performance-based weights. Weights adapt over time depending on layer accuracy and reliability. 📊 Signal Generation Primary & Fallback Tests: Ensures signals remain robust even when strict thresholds aren’t met. Quality Scoring: Layers contribute proportionally to their statistical strength. Ensemble Confidence: Combines agreement across layers, statistical reliability, and validation accuracy. Long/Short Entries trigger when: Ensemble score crosses ±0.3 Confidence exceeds user-defined threshold Multiple layers confirm trend direction ⚖️ Risk & Money Management Position Sizing: Adaptive, based on confidence levels. Daily Loss Protection: Strategy halts if losses exceed user-set maximum (% of equity). Confidence-Based Scaling: Larger trades placed when ensemble confidence is stronger. 📺 Visualization Regression lines plotted for each timeframe (short/medium/long). Background coloring for bullish/bearish confidence zones. Signal markers for entries (green up-triangle = Long, red down-triangle = Short). Live statistics dashboard with: R² values & significance checks Ensemble score & confidence Adaptive thresholds & reliability metrics Net profit tracking ⚠️ Notes Best suited for EUR/USD on higher intraday or daily timeframes. Parameters are fully configurable for testing across other assets. Strategy includes slippage, commissions, and capital controls for more realistic backtests. 👉 In short: This is a regression-based ensemble trading system that adapts to changing market conditions, validates its own predictions, and dynamically adjusts trade sizing while respecting strict risk management rules.

Volume Block Order Analyzer Core Concept The Volume Block Order Analyzer is a sophisticated Pine Script strategy designed to detect and analyze institutional money flow through large block trades. It identifies unusually high volume candles and evaluates their directional bias to provide clear visual signals of potential market movements. How It Works: The Mathematical Model 1. Volume Anomaly Detection The strategy first identifies "block trades" using a statistical approach: ``` avgVolume = ta.sma(volume, lookbackPeriod) isHighVolume = volume > avgVolume * volumeThreshold ``` This means a candle must have volume exceeding the recent average by a user-defined multiplier (default 2.0x) to be considered a significant block trade. 2. Directional Impact Calculation For each block trade identified, its price action determines direction: - Bullish candle (close > open): Positive impact - Bearish candle (close < open): Negative impact The magnitude of impact is proportional to the volume size: ``` volumeWeight = volume / avgVolume // How many times larger than average blockImpact = (isBullish ? 1.0 : -1.0) * (volumeWeight / 10) ``` This creates a normalized impact score typically ranging from -1.0 to 1.0, scaled by dividing by 10 to prevent excessive values. 3. Cumulative Impact with Time Decay The key innovation is the cumulative impact calculation with decay: ``` cumulativeImpact := cumulativeImpact * impactDecay + blockImpact ``` This mathematical model has important properties: - Recent block trades have stronger influence than older ones - Impact gradually "fades" at rate determined by decay factor (default 0.95) - Sustained directional pressure accumulates over time - Opposing pressure gradually counteracts previous momentum Trading Logic Signal Generation The strategy generates trading signals based on momentum shifts in institutional order flow: 1. Long Entry Signal: When cumulative impact crosses from negative to positive ``` if ta.crossover(cumulativeImpact, 0) strategy.entry("Long", strategy.long) ``` *Logic: Institutional buying pressure has overcome selling pressure, indicating potential upward movement* 2. Short Entry Signal: When cumulative impact crosses from positive to negative ``` if ta.crossunder(cumulativeImpact, 0) strategy.entry("Short", strategy.short) ``` *Logic: Institutional selling pressure has overcome buying pressure, indicating potential downward movement* 3. Exit Logic: Positions are closed when the cumulative impact moves against the position ``` if cumulativeImpact < 0 strategy.close("Long") ``` *Logic: The original signal is no longer valid as institutional flow has reversed* Visual Interpretation System The strategy employs multiple visualization techniques: 1. Color Gradient Bar System: - Deep green: Strong buying pressure (impact > 0.5) - Light green: Moderate buying pressure (0.1 < impact ≤ 0.5) - Yellow-green: Mild buying pressure (0 < impact ≤ 0.1) - Yellow: Neutral (impact = 0) - Yellow-orange: Mild selling pressure (-0.1 < impact ≤ 0) - Orange: Moderate selling pressure (-0.5 < impact ≤ -0.1) - Red: Strong selling pressure (impact ≤ -0.5) 2. Dynamic Impact Line: - Plots the cumulative impact as a line - Line color shifts with impact value - Line movement shows momentum and trend strength 3. Block Trade Labels: - Marks significant block trades directly on the chart - Shows direction and volume amount - Helps identify key moments of institutional activity 4. Information Dashboard: - Current impact value and signal direction - Average volume benchmark - Count of significant block trades - Min/Max impact range Benefits and Use Cases This strategy provides several advantages: 1. Institutional Flow Detection: Identifies where large players are positioning themselves 2. Early Trend Identification: Often detects institutional accumulation/distribution before major price movements 3. Market Context Enhancement: Provides deeper insight than simple price action alone 4. Objective Decision Framework: Quantifies what might otherwise be subjective observations 5. Adaptive to Market Conditions: Works across different timeframes and instruments by using relative volume rather than absolute thresholds Customization Options The strategy allows users to fine-tune its behavior: - Volume Threshold: How unusual a volume spike must be to qualify - Lookback Period: How far back to measure average volume - Impact Decay Factor: How quickly older trades lose influence - Visual Settings: Labels and line width customization This sophisticated yet intuitive strategy provides traders with a window into institutional activity, helping identify potential trend changes before they become obvious in price action alone.

Autocorrelation Price Forecasting [The Quant Science]Discover how to predict future price movements using autocorrelation and linear regression models to identify potential trading opportunities. An advanced model to predict future price movements using autocorrelation and linear regression. This script helps identify recurring market cycles and calculates potential gains, with clear visual signals for quick and informed decisions. Main function This script leverages an autocorrelation model to estimate the future price of an asset based on historical price relationships. It also integrates linear regression on percentage returns to provide more accurate predictions of price movements. Insights types 1) Red label on a green candle: Bearish forecast and swing trading opportunity. 2) Red label on a red candle: Bearish forecast and trend-following opportunity. 3) Green label on a red candle: Bullish forecast and swing trading opportunity. 4) Green label on a green candle: Bullish forecast and trend-following opportunity. IMPORTANT! The indicator displays a future price forecast. When negative, it estimates a future price drop. When positive, it estimates a future price increase. Key Features Customizable inputs Analysis Length: number of historical bars used for autocorrelation calculation. Adjustable between 1 and 200. Forecast Colors: customize colors for bullish and bearish signals. Visual insights Labels: hypothetical gains or losses are displayed as labels above or below the bars. Dynamic coloring: bullish (green) and bearish (red) signals are highlighted directly on the chart. Forecast line: A continuous line is plotted to represent the estimated future price values. Practical applications Short-term Trading: identify repetitive market cycles to anticipate future movements. Visual Decision-making: colored signals and labels make it easier to visualize potential profit or loss for each trade. Advanced Customization: adjust the data length and colors to tailor the indicator to your strategies. Limitations Prediction price models have some limitations. Trading decisions should be made with caution, considering additional market factors and risk management strategies.

Quantitative Breakout Bands (AIBitcoinTrend)Quantitative Breakout Bands (AIBitcoinTrend) is an advanced indicator designed to adapt to dynamic market conditions by utilizing a Kalman filter for real-time data analysis and trend detection. This innovative tool empowers traders to identify price breakouts, evaluate trends, and refine their trading strategies with precision. 👽 What Are Quantitative Breakout Bands, and Why Are They Unique? Quantitative Breakout Bands combine advanced filtering techniques (Kalman Filters) with statistical measures such as mean absolute error (MAE) to create adaptive price bands. These bands adjust to market conditions dynamically, providing insights into volatility, trend strength, and breakout opportunities. What sets this indicator apart is its ability to incorporate both position (price) and velocity (rate of price change) into its calculations, making it highly responsive yet smooth. This dual consideration ensures traders get reliable signals without excessive lag or noise. 👽 The Math Behind the Indicator 👾 Kalman Filter Estimation: At the core of the indicator is the Kalman Filter, a recursive algorithm used to predict the next state of a system based on past observations. It incorporates two primary elements: State Prediction: The indicator predicts future price (position) and velocity based on previous values. Error Covariance Adjustment: The process and measurement noise parameters refine the prediction's accuracy by balancing smoothness and responsiveness. 👾 Breakout Bands Calculation: The breakout bands are derived from the mean absolute error (MAE) of price deviations relative to the filtered trendline: float upperBand = kalmanPrice + bandMultiplier * mae float lowerBand = kalmanPrice - bandMultiplier * mae The multiplier allows traders to adjust the sensitivity of the bands to market volatility. 👾 Slope-Based Trend Detection: A weighted slope calculation measures the gradient of the filtered price over a configurable window. This slope determines whether the market is trending bullish, bearish, or neutral. 👾 Trailing Stop Mechanism: The trailing stop employs the Average True Range (ATR) to calculate dynamic stop levels. This ensures positions are protected during volatile moves while minimizing premature exits. 👽 How It Adapts to Price Movements Dynamic Noise Calibration: By adjusting process and measurement noise inputs, the indicator balances smoothness (to reduce noise) with responsiveness (to adapt to sharp price changes). Trend Responsiveness: The Kalman Filter ensures that trend changes are quickly identified, while the slope calculation adds confirmation. Volatility Sensitivity: The MAE-based bands expand and contract in response to changes in market volatility, making them ideal for breakout detection. 👽 How Traders Can Use the Indicator 👾 Breakout Detection: Bullish Breakouts: When the price moves above the upper band, it signals a potential upward breakout. Bearish Breakouts: When the price moves below the lower band, it signals a potential downward breakout. The trailing stop feature offers a dynamic way to lock in profits or minimize losses during trending moves. 👾 Trend Confirmation: The color-coded Kalman line and slope provide visual cues: Bullish Trend: Positive slope, green line. Bearish Trend: Negative slope, red line. 👽 Why It’s Useful for Traders Dynamic and Adaptive: The indicator adjusts to changing market conditions, ensuring relevance across timeframes and asset classes. Noise Reduction: The Kalman Filter smooths price data, eliminating false signals caused by short-term noise. Comprehensive Insights: By combining breakout detection, trend analysis, and risk management, it offers a holistic trading tool. 👽 Indicator Settings Process Noise (Position & Velocity): Adjusts filter responsiveness to price changes. Measurement Noise: Defines expected price noise for smoother trend detection. Slope Window: Configures the lookback for slope calculation. Lookback Period for MAE: Defines the sensitivity of the bands to volatility. Band Multiplier: Controls the band width. ATR Multiplier: Adjusts the sensitivity of the trailing stop. Line Width: Customizes the appearance of the trailing stop line. Disclaimer: This indicator is designed for educational purposes and does not constitute financial advice. Please consult a qualified financial advisor before making investment decisions.

GARCH Volatility Estimation - The Quant Science The GARCH (Generalized Autoregressive Conditional Heteroskedasticity) model is a statistical model used to forecast the volatility of a financial asset. This model takes into account the fluctuations in volatility over time, recognizing that volatility can vary in a heteroskedastic (i.e., non-constant variance) manner and can be influenced by past events. The general formula of the GARCH model is: σ²(t) = ω + α * ε²(t-1) + β * σ²(t-1) where: σ²(t) is the conditional variance at time t (i.e., squared volatility) ω is the constant term (intercept) representing the baseline level of volatility α is the coefficient representing the impact of the squared lagged error term on the conditional variance ε²(t-1) is the squared lagged error term at the previous time period β is the coefficient representing the impact of the lagged conditional variance on the current conditional variance In the context of financial forecasting, the GARCH model is used to estimate the future volatility of the asset. HOW TO USE This quantitative indicator is capable of estimating the probable future movements of volatility. When the GARCH increases in value, it means that the volatility of the asset will likely increase as well, and vice versa. The indicator displays the relationship of the GARCH (bright red) with the trend of historical volatility (dark red). USER INTERFACE Alpha: select the starting value of Alpha (default value is 0.10). Beta: select the starting value of Beta (default value is 0.80). Lenght: select the period for calculating values within the model such as EMA (Exponential Moving Average) and Historical Volatility (default set to 20). Forecasting: select the forecasting period, the number of bars you want to visualize data ahead (default set to 30). Design: customize the indicator with your preferred color and choose from different types of charts, managing the design settings.

GRID SPOT TRADING ALGORITHM - GRID BOT TRADING STRATEGY GRID SPOT TRADING ALGORITHM : LONG ONLY STRATEGY OPEN SOURCE This is a long only strategy for spot assets. HOW IT WORKS Grid trading is a trading strategy where an investor creates a so-called "price grid". The basic idea of the strategy is to repeatedly buy at the pre-specified price and then wait for the price to rise above that level and then sell the position (and vice versa with shorting or hedging). FEATURES Grids: This algorithm has a total of 10 grids. Take profit: The trader can increase or decrease the distance between the grids from the User Interface panel, the distance between one grid and another represents the take profit. Management: The algorithm buys 10% of the capital every time the price breaks down a grid and sells during a rise to the next higher grid. The initial capital is invested in 10 sizes which represent 10% of the capital per trade. Stop Loss: The algorithm knows no stop loss as long as it is not activated from the User Interface panel. By activating the stop loss from the User Interface panel the algorithm will insert a close condition on all trades which will be calculated from the last lower grid. Trades: Trades are opened only if the price is within the grid. If the market leaves the grid the algorithm will not buy new positions or sell new positions. Optimal market conditions: The favorable market for this algorithm is the sideways market. LIMITATIONS OF THE MODEL The trader must take into account that this is a static model. It only works perfectly well if the market is in a sideways phase and incurs heavy losses if the market takes a downward trend. The model is unusable for an uptrend. The trader must therefore carefully analyze the market where he intends to use this strategy, making sure that the price is in a sideways phase. USES Indispensable research and backtesting tool for those using bots for their investments. The algorithm produces a backtesting of the strategy for past history. It is used by professional traders to understand if this strategy has been profitable on a market and what parameters to use for bots using this strategy (Kucoin, Binance etc.). If you would like to develop your own algorithm with customized conditions based on a grid strategy, please contact us. If you need help in using this tool, please contact us without hesitation.