Abstract
One important way in which neuroscience, particularly neuroanatomy, contributes to cognitive science is by providing a model of the brain's architecture, which, in turn, can be utilized as a guide to the architecture of cognition. This project assumes commitment to a view, now well established, that different mental processes, such as perceiving and remembering, employ different parts of the brain (where part is loosely construed so as not to exclude entities which may themselves be composite). These parts may differ according to their internal organizational structure, information processing capacities, and degree of informational connectivity with other parts. Later I will present an example of research in visual processing where researchers are currently attempting to realize the heuristic potential of the brain's architecture in order to understand cognitive organization. Of prior importance, however, is an understanding of how neuroscientists decipher the architecture of the brain itself. This task of mapping the brain, of carving it up into distinct areas, is not as straightforward as one might think. There are, for example, several different criteria by which one might fix a given boundary between brain regions. Below, I not only highlight some of the more interesting facets of brain mapping research but also elaborate on why such research is of interest to cognitive scientists.