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News Abstract
By: PointLine Media Research & Editorial Team
Topic:Science & Environment,Technology
June 3, 2026
After 25 years of study, independent Saudi researcher Abdulrahman Al'alawi has publicly released the complete HCSP Theorem and the Universal Structural Determinism Law (USDL) Statement. This publication builds upon earlier work, providing a comprehensive framework for his theory.
Al'alawi's work asserts mathematically that quantum indeterminacy is not a fundamental aspect of nature. Instead, it is described as an observable gap in measurement quality, stemming from low structured information, poor contextual relevance, or excessive noise.
The theorem introduces a mathematical formulation that quantifies the level of certainty, demonstrating that absolute certainty can be achieved once specific information quality conditions are met, without relying on probability or superposition.
The USDL Statement, presented in three parts, postulates that all physical entities operate within a closed structural system. It redefines the Heisenberg uncertainty product as a 'Residual Measurement Gap' and argues that randomness is merely unmapped complexity, with determinism as the universe's inherent state.
For decades, physicists have grappled with the implications of quantum mechanics, particularly the concept of inherent randomness and the challenge of unifying it with general relativity. The debate between a fundamentally probabilistic universe and an underlying deterministic reality has fueled scientific and philosophical inquiry.
Al'alawi's HCSP Theorem and USDL Statement contribute to this ongoing discussion by proposing a deterministic model. By suggesting that quantum uncertainty is an epistemic failure rather than an ontological truth, this research offers a new perspective on achieving a unified theory of physics and could influence future approaches to fields like quantum computing and precise engineering.