TY  - JOUR
AB  - This paper examines the limitations of analytical and computational methods in understanding reality, highlighting the secondary role of language and mathematics, which often leads to paradoxes. G del s incompleteness theorems underscore the inherent incompleteness and undecidability in logical and computational systems, such as the Turing machine. We propose that consciousness, operating as a non-material and chaotic finite-state machine (FSM) devoid of self-referencing, can achieve a complete and decidable understanding of reality. This contrasts with the self-referencing nature of logical systems that leads to paradoxes and limitations. Through a conceptual model of the mind inspired by Therav da Buddhist philosophy, we suggest that awareness of causation is free from self-referencing and coherent with the unpredictable yet causal and deterministic nature of reality. This alignment offers a pathway to a deeper and more comprehensive understanding of causation. The model illustrates the tight integrity between consciousness and causation, proposing that awareness of the present moment of causation can transcend the limitations of G del s incompleteness theorems. This awareness, free from analytical and computational constraints, preserves the integrity of conscious experience and provides a complete and decidable understanding of reality. Future research will focus on developing techniques to sustain this awareness, potentially leading to wisdom and deep insight into the fundamental nature of existence.
AU  - Samarawickrama, M
DA  - 2025/06/01
DO  - 10.1088/1742-6596/3027/1/012014
JO  - Journal of Physics Conference Series
PB  - IOP Publishing
PY  - 2025/06/01
SP  - 012014
TI  - The Model of Consciousness: An Analysis of Causation, Self, Gödel?s Incompleteness, and Buddhist Philosophy
VL  - 3027
Y1  - 2025/06/01
Y2  - 2026/05/21
ER  -