AI-powered Neuroprosthetics for brain-computer interfaces (BCIs)

Mohan Raja Pulicharla 1, * and Varsha Premani 2

1 Staff Data Engineer, Realtor.com, News Corp, USA.
2 Data Engineer, Realtor.com, News Corp, USA
 
Review
World Journal of Advanced Engineering Technology and Sciences, 2024, 12(01), 109-115.
Article DOI: 10.30574/wjaets.2024.12.1.0201
Publication history: 
Received on 07 April 2024; revised on 13 May 2024; accepted on 16 May 2024
 
Abstract: 
Imagine a world where individuals with lost or impaired sensory or motor function can regain independence and control through technology. This is the promise of neuroprosthetics, a rapidly evolving field that bridges the gap between the nervous system and external devices.
Neuroprosthetics encompass a range of implanted or external devices designed to:
  • Substitute for a malfunctioning part of the nervous system.
  • Assist in the recovery or enhancement of lost or impaired function.
  • Augment existing capabilities, creating new possibilities.
These devices interact with the nervous system using various methods, including:
  • Electrical stimulation: Directly stimulating nerves or brain tissue to evoke desired responses.
  • Recording brain activity: Capturing electrical signals generated by the brain for further processing and interpretation.
Common applications of neuroprosthetics include:
  • Cochlear implants: Restoring hearing in individuals with severe hearing loss.
  • Deep brain stimulation (DBS): Treating movement disorders like Parkinson's disease and essential tremor.
  • Bionic limbs: Providing control of prosthetic arms and legs for individuals with limb loss.
  • Brain-computer interfaces (BCIs): Enabling communication and control of external devices using brain signals alone.
Neuroprosthetics offer a glimpse into the future of medicine and technology. With ongoing advancements, these devices have the potential to revolutionize how we treat neurological conditions, restore lost abilities, and even enhance human potential. However, significant challenges remain, including ensuring long-term safety, improving accuracy and reliability, and addressing ethical considerations. As research continues, neuroprosthetics holds immense potential to improve the lives of millions and redefine what it means to be human.
The integration of artificial intelligence (AI) with neuroprosthetics has marked a significant milestone in the development of brain-computer interfaces (BCIs). This emerging synergy aims to enhance the quality of life for individuals with disabilities by restoring lost sensory, motor, and cognitive functions. This review article explores the advancements in AI-powered neuroprosthetics for BCIs, focusing on their design, functionality, and the ethical considerations that accompany their integration into medical practice.
 
Keywords: 
AI-powered neuroprosthetics; Brain-computer interfaces (BCIs); Neural implants; Neurostimulation
 
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