EAG 2017 Boston: What sets the exponent of neuroscience progress (Adam Marblestone)

Neuroscience needs to make a transition from small science to large scale systems engineering and analysis, analogous to the changes in 20thcentury physics that gave rise to particle accelerators, space telescopes, the Standard Model and the transistor. Yet the complexity and diversity of neuroscience has made it difficult to know how to proceed: a different kind of integration is needed in the science of complexity than in the science of simplicity. Using examples from brain mapping technology and from the neuroscience-AI theoretical interface, I will argue that the achievement of accelerated progress in the field is gated by support (organizational, cultural, financial) for truly unconventional integrations of otherwise disparate ideas and methods. Such approaches sometimes require us to deviate from familiar modes of hypothesis-driven science, as we search for integrative frameworks and build new kinds of observational tools, but there is a chance that they could finally allow us to explore the relevant regions of hypothesis space for understanding how the brain works.

Source: Effective Altruism Global (video).

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