“…The human nervous system is a remarkable biological system that has evolved over millions of years to enable humans to sense, process, and respond to information in a highly efficient and intelligent manner. , Engineers and scientists have been fascinated by the prospect of creating machines and robots that can replicate the biological system for a long time. − Although classical computing systems running on software have been used to mimic biological nervous systems, these systems follow a centralized and sequential approach based on the von Neumann model. , In contrast, biological nervous systems utilize a distributed, parallel, and event-driven approach using neurons and synapses to process information. − These differences lead to classical systems being efficient and accurate for well-defined problems, while biological systems are more compact, fault-tolerant, and power-efficient in complex real-world scenarios. − Therefore, emulating the complex cognition of information interaction and processing mechanisms in biological nervous systems has been a major focus in this field. − The goal is to achieve autonomous functions and problem-solving capabilities, which has inspired the research and development of artificial neural systems. By mimicking the functions of the human nervous system, researchers aim to create artificial neuron devices and systems that can perform tasks with the same level of efficiency and intelligence as humans, thus opening up many new possibilities in research fields such as robotics, healthcare, and artificial intelligence. ,− Additionally, understanding and replicating the mechanisms of the human nervous system can provide researchers with deeper insights into how our own brain and nervous system work, leading to potential development of new treatments for neurological disorders and the development of neuroprosthetics and human augmentation. − …”