Mr. Zauh Jariwala1
1Zstone, Melbourne, Australia
Biography:
My life's story so far has been one of constant change, from travelling across the world here in Melbourne for studies, to presenting one of my designs to the Royal family of Dubai, I have achieved many things in the realms of design and engineering, but I now have taken a recent focus on systems, and I now spend my time researching them as I believe they hold the answers to the future survival of our human race.
Abstract:
This paper introduces the Noise Sink, a novel theoretical construct designed to enhance the resilience and adaptability of agents within complex adaptive systems (CAS). The Noise Sink functions as a stochastic diffuser that selectively mitigates excessive environmental disturbances, thus preserving the integrity and functionality of the system. By implementing a threshold-based mechanism, the Noise Sink filters out non-synergistic disturbances, ensuring that only beneficial signals influence agent behaviours and system dynamics. Simulation results indicate that CAS integrated with Noise Sinks demonstrate significantly improved survival rates and stability, affirming the utility of this approach in enhancing system resilience. The concept of the Noise Sink holds potential applications across a variety of domains, including artificial intelligence, cancer research, and socio-economic systems, providing a strategic tool for managing complexity and fostering sustainable system behaviour across disciplines.