In particular, systems neuroscience — the study of complex
interactions among brain cells that underlie perception, thought, and behavior — has witnessed unprecedented advances in monitoring and probing the brain.
Not exact matches
Markram's model will electronically mirror the real
brain's biological behaviors, imitating mathematically the
interactions among individual neurons and the effects of neurotransmitters on those
cells.
By encouraging
interaction among these initiatives, researchers are learning not just how the myriad
cells of the
brain work individually, but how they work in concert to produce behavior — as well as how the neural circuitry of behavior is modified in response to different forms of learning.