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QUANTA - LAB HMM REGIME DETECTION
Two-state Hidden Markov Model for market regime detection based on Hamilton (1989) Markov-Switching framework.
Methodology:
Full Baum-Welch EM algorithm in log-space for numerical stability
Real-time Hamilton filtering (no lookahead) for trading use
Kim smoothing for historical analysis
Multiple random restarts to avoid local optima
Regime Classification:
Mean-based: R1 = Bearish (lower μ), R2 = Bullish (higher μ)
Volatility-based: R1 = Calm (lower σ), R2 = Turbulent (higher σ)
Key Features:
TRADING vs ANALYSIS mode (filtered vs smoothed probabilities)
Gaussian assumption diagnostics (kurtosis, skewness, outliers)
Data Quality Score (0-100)
Regime Certainty Index (RCI)
Mean separation t-statistic
Expected regime duration and ergodic probabilities
Degenerate model detection
Dashboard Includes:
Filtered probabilities (real-time, safe for trading)
Emission parameters (μ₁, μ₂, σ₁, σ₂)
Transition matrix (p₁₁, p₂₂)
Model fit metrics (LogL, AIC, BIC)
Critical Warnings:
Smoothed ≠ Real-time (smoothed uses future info)
Gaussian assumption: fat tails not captured
K=2 regimes only — may oversimplify dynamics
NOT for high-frequency (minimum 1H timeframe)
Validate with Python hmmlearn / R / MATLAB
References: Hamilton (1989) — Econometrica
Methodology:
Full Baum-Welch EM algorithm in log-space for numerical stability
Real-time Hamilton filtering (no lookahead) for trading use
Kim smoothing for historical analysis
Multiple random restarts to avoid local optima
Regime Classification:
Mean-based: R1 = Bearish (lower μ), R2 = Bullish (higher μ)
Volatility-based: R1 = Calm (lower σ), R2 = Turbulent (higher σ)
Key Features:
TRADING vs ANALYSIS mode (filtered vs smoothed probabilities)
Gaussian assumption diagnostics (kurtosis, skewness, outliers)
Data Quality Score (0-100)
Regime Certainty Index (RCI)
Mean separation t-statistic
Expected regime duration and ergodic probabilities
Degenerate model detection
Dashboard Includes:
Filtered probabilities (real-time, safe for trading)
Emission parameters (μ₁, μ₂, σ₁, σ₂)
Transition matrix (p₁₁, p₂₂)
Model fit metrics (LogL, AIC, BIC)
Critical Warnings:
Smoothed ≠ Real-time (smoothed uses future info)
Gaussian assumption: fat tails not captured
K=2 regimes only — may oversimplify dynamics
NOT for high-frequency (minimum 1H timeframe)
Validate with Python hmmlearn / R / MATLAB
References: Hamilton (1989) — Econometrica
保護スクリプト
このスクリプトのソースコードは非公開で投稿されています。 ただし、制限なく自由に使用できます – 詳細はこちらでご確認ください。
Institutional-grade diagnostics: GARCH, HMM Regimes, Cointegration, Microstructure, Fractal Analysis | Research only
免責事項
この情報および投稿は、TradingViewが提供または推奨する金融、投資、トレード、その他のアドバイスや推奨を意図するものではなく、それらを構成するものでもありません。詳細は利用規約をご覧ください。
保護スクリプト
このスクリプトのソースコードは非公開で投稿されています。 ただし、制限なく自由に使用できます – 詳細はこちらでご確認ください。
Institutional-grade diagnostics: GARCH, HMM Regimes, Cointegration, Microstructure, Fractal Analysis | Research only
免責事項
この情報および投稿は、TradingViewが提供または推奨する金融、投資、トレード、その他のアドバイスや推奨を意図するものではなく、それらを構成するものでもありません。詳細は利用規約をご覧ください。