Abstract
Neuromorphic computing represents a groundbreaking paradigm shift in the realm of artificial intelligence, aiming to replicate the architecture and operational mechanisms of the human brain. This paper provides a comprehensive exploration of the foundational principles that underpin this innovative approach, examining the technological implementations that are driving advancements in the field. We delve into a diverse array of applications across various sectors, highlighting the versatility and relevance of neuromorphic systems. Key challenges such as scalability, integration with existing technologies, and the complexity of accurately modeling intricate brain functions are thoroughly analyzed. The discussion includes potential solutions and future prospects, illuminating pathways to overcome these obstacles. To illustrate the tangible impact of these technologies, we present practical examples that underscore their transformative potential in domains such as robotics, where they enable adaptive learning and autonomy, healthcare, where they enhance diagnostic tools and personalized medicine; cognitive computing, which facilitates improved human-computer interaction; and the development of smart cities, optimizing urban infrastructure and resource management. Through this examination, the paper aims to underscore the significance of neuromorphic computing in shaping the future of intelligent systems and fostering a deeper understanding of both artificial and natural intelligence.
Published Version
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