Neuroprosthetic is a device that supplants or supplements the input and/or output of the nervous system. Broadly speaking, direct communication with the nervous system is one of the primary goals in AI based neuroengineering to date. Recording and decoding neural information with spatial and temporal precision, and sending appropriate feedback is the main objective here. Neuroprostheses can restore some motor, sensory, and autonomic functions by stimulating various parts of the nervous system including muscles, nerves, spinal cord, or the brain.

Information transfer via neuroprostheses is not a one-way street; some systems are able to convert environmental stimuli into perceptions by capturing an external input and translating it into an appropriate stimulus delivered directly to the nervous system. It is a multidisciplinary research, crossing all the domains in engineering, neuroscience, and medicine. Concurrently, ongoing research in this space will lead to new applications and platforms for rehabilitation, therapeutics, and the restoration of quality of life.

This page is devoted to studies of brain-machine interfaces and neuroprostheses, and aims at bringing together the most outstanding work to develop and explore devices and strategies in humans and animals. Here, you will get the latest research articles on Neuroprostheses and AI:


Brain-Computer Interface and Compassionate Artificial Intelligence to Serve Humanity

Brain-Computer Interface and Compassionate Artificial Intelligence

Dr. Amit Ray

The purpose of Compassionate AI is to remove the pain from the society and help humanity. We focused on developing AI based low cost BCI based interfaces for helping disable people.

Artificial Intelligence with Brain-Computer Interface (BCI) or Brain Machine Interface (BMI) is a fast-growing emerging technology for removing pains from the society. Here,  Dr. Amit Ray explains how with the advancement of artificial intelligence and exploration of new mobile bio-monitoring  devices, earphones, neuroprosthetic, wireless  wearable sensors, it is possible to monitor  thoughts and activities of brain neurons  and serve humanity.

This research is going to be immensely  beneficial for the physically and mentally challenged people as well as for the people who are suffering from post-traumatic stress disorder (PTSD), and other mental disorders or brain problems. Over the last 5 years, technologies for non-invasive transmission of information from brains to computers have developed considerably.

Brain-Computer Interface and Compassionate AI

Here, researchers focus to build a direct communication link between the human brain and the smartphones, earphone, computers or other devices. With BCI mind can speak silently with a smartphone or other devices.  Recent advancement of neuroprosthetic, linking the human nervous system to computers and providing unprecedented control of artificial limbs and restoring lost sensory function.

 BCI establishes two way communications between the brain and the machine.  One is  brain-computer interface and another is called computer-brain interfaces (CBI). BCI hopes to create new communication channels for disabled or elderly persons using their brain signals. Read More »Brain-Computer Interface and Compassionate Artificial Intelligence to Serve Humanity