What exactly does a computational neuroscientist do, and why it should concern you

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In simple terms, a computational neuroscientist is a scientist who uses computer-based models and simulations to study and understand how the human brain works.

They apply principles of neuroscience, mathematics, and computer science to analyze large amounts of data collected from the human brain, with the ultimate gold of remotely (externally) manipulating your brain.

Computational neuroscientists develop mathematical and computational models to represent the activity of the human brain neurons and its networks that connect to them.

These models help them simulate various brain manipulations and processes, such as sensory perception, emotions, decision-making, and memory.

By running these simulations, they can test hypotheses, make predictions, and gain insights into how the brain functions and how it can be hacked.

To do this, computational neuroscientists use techniques like statistical analysis, machine learning, and data visualization to analyze brain data.

They design and conduct experiments, collect data through various methods such as brain imaging, electrophysiology, and genetic analysis.

“Electrophysiology is the study of electrical activity in living organisms, particularly the measurement of electrical signals within cells, tissues, or organs. It involves the use of various techniques to record and analyze the electrical potentials and currents generated by biological systems.

These techniques can provide valuable information about the function and dysfunction of cells and tissues, such as neurons, cardiac cells, or muscles.

Electrophysiology is commonly used in fields such as neuroscience, cardiology, and physiology to understand the electrical properties and mechanisms underlying various biological processes.” ChatGPT.

Computational neurologist work involves collaborating with experimental neuroscientists and researchers from other disciplines.

They work together to collect data from living organisms or brain tissues inside the brain, and use this data to refine their computational models.

Ultimately, the aim is to better understand the brain’s complex mechanisms and use that knowledge to hack the human brain. Scientists use it for medical purposes, but critics are sounding the alarm since many private enterprises are experimenting with applications to hack the brain remotely, to control human emotions and even body movements.

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