Independent Research in Fundamental Computer Science, Information Theory, and Computational Complexity. These studies introduce foundational paradigms that challenge conventional approaches across multiple domains of computer science. The findings are supported by three published works with DOI, one technical report with experimental validation, alongside complete ecosystems and implemented applications.
Together, these contributions question established assumptions and open new directions for secure systems, complexity theory, and information transmission.
Architectural shift from data protection to data non‑existence. Security through data non‑existence — eliminate vulnerable data instead of protecting it.
Ontological shift from data transmission to synchronous state discovery. Communication as pointer synchronization — regenerate data locally rather than transmit it.
Experimental validation of Security & Regeneration paradigms. 2.8M elements/second, O(1) state access.
Structural-statistical approach to NP-complete problems