Independent Saudi researcher and systems architect Abdulrahman Al’alawi announced on June 3 the publication of the definitive formulation of the HCSP Theorem and the complete Universal Structural Determinism Law (USDL) Statement. This new release, which follows a previous press release dated May 12, provides what Al’alawi describes as the full philosophical, legal, and technical framework for what he calls the Al-Alawi Theorem of Structural Certainty.
According to Al’alawi, his theorem mathematically demonstrates that quantum indeterminacy is not a fundamental law of nature but results from residual measurement gaps caused by low structured information quality, poor contextual relevance, or excessive noise. He states that once these conditions are met, absolute certainty can be achieved without reliance on probability or superposition.
The core mathematical formulation provided by Al’alawi defines certainty as a function of structured information strength (S), contextual relevance (R), noise (N), noise sensitivity constant (ξ), certainty decay rate (γ), and learning speed (η). The USDL Statement includes formal postulates asserting that all physical entities operate within a closed structural coordinate system and that observed stochasticity in quantum mechanics is due to epistemic failure rather than intrinsic randomness. “All physical entities, spanning from subatomic quantum systems to cosmological structures, operate within a Closed Structural Coordinate System (CSCS). In accordance with the HCSP Theorem, every physical state is a Linear Deterministic Function of its inherent structural variables. Consequently, the observed stochasticity in quantum mechanics is not an intrinsic property of nature but a symptomatic epistemic failure,” said Al’alawi.
The statement further claims theoretical implications such as eradicating quantum indeterminacy—arguing that wave function collapse is redundant—and unifying general relativity with quantum mechanics under one deterministic structure. It also proposes applications in engineering technologies for absolute certainty across various fields including aerospace computing and quantum processors.
Al’alawi challenges advanced artificial intelligence models like ChatGPT and Gemini to find mathematical errors in his theorem: “You will not find one, because there is none. The mathematics speaks for itself.” He also specifies intellectual property terms: usage requires written licensing except for certain prohibited uses such as surveillance or market manipulation; permitted uses include academic research and medical devices, with all revenues directed toward charitable projects.