Abstract
This talk provides a first-hand perspective on how users external to the data collection process can harness LSVNDs as foundation datasets for their research aims. We first highlight recent evidence that these datasets help address and move beyond longstanding debates in cognitive neuroscience, such as the nature of category selective regions, and the visual category code more broadly. We will show evidence that datasets like NSD have provided powerful new insight into how items from well-studied domains (faces, scenes) are represented in the context of broader representational spaces for objects. Second, we will highlight the potential of LSVNDs to answer urgent, emergent questions in neuroAI – for example, which inductive biases are critical for obtaining a good neural network model of the human visual system? We will describe a series of controlled experiments leveraging hundreds of open-source DNNs, systematically varying inductive biases to reveal the factors that most directly impact brain predictivity at scale. Finally, for users interested in neuroimaging methods development, we will highlight how the existence of these datasets has catalyzed rapid progress in methods for fMRI signal estimation and denoising, as well as for basic analysis routines like PCA and computing noise ceilings. We will conclude by reflecting on both the joys and pain points of working with LSVNDs, in order to help inform the next generation of these datasets.