Bio-AI Metaverse Integration: Fusion of Surgical and Aerospace Engineering

Abstract: Recent advancements in real-time brain-computer interfaces (BCIs) hold immense promise for neurosurgery and beyond with a new framework to prepare for backbone surgery. These BCIs can potentially revolutionize surgical precision and patient outcomes by decoding real-time neural signals with 5G. However, their clinical effectiveness is still evolving. This study conducts a comprehensive review and meta-analysis to assess the methodological impact of real-time BCIs in neurosurgery. The research converges two perspectives: one focuses on integrating into humans for neurosurgical enhancements, while the other explores advanced BCIs involving augmented reality and quantum computing from an aerospace human systems integrator viewpoint. This interdisciplinary approach aims to harmoniously integrate these technologies within the human brain, potentially leading to groundbreaking advancements. The methodology employs a pragmatic innovation of cellular composite structured spacecraft with unbent human systems integration.

Keywords: Brain-computer interfaces, Neurosurgery, Real-time Decoding, Precision Engineering

DOI: 10.54941/ahfe1004525

Cite this paper:

​