In an era where historical correlations are breaking down and market regimes shift with violent unpredictability, relying on static "optimal" portfolios is a recipe for disaster. This book is written for serious investors, asset allocators, and quantitative practitioners who value survivability over theoretical perfection. It challenges the conventional wisdom of standard models, arguing that true wealth preservation requires acknowledging the difference between calculable risk and Knightian uncertainty-the unknown unknowns that shatter fragile strategies.
Through a rigorous engineering lens, the text takes readers from the physics of compounding and ruin to the cutting edge of resilient allocation. You will learn to construct portfolios that can withstand inflationary shocks and liquidity crises by mastering concepts like regime-aware asset drivers, input shrinkage, and convex tail-hedging strategies. The content moves beyond standard volatility metrics, teaching you to implement rigorous stress testing and Monte Carlo simulations to detect hidden concentrations and structural vulnerabilities before they manifest in your returns.
Unlike academic texts that assume frictionless markets, this guide bridges the gap between complex mathematical modeling and real-world implementation. It addresses the crucial friction points of trading costs, liquidity constraints, and investor psychology, ensuring that your strategy is not only mathematically sound but also biologically sustainable. By the end, you will possess a complete framework for engineering portfolios designed not just