The Operation of Memory Systems in the Brain

This chapter describes memory systems in the brain based on closely linked neurobiological and computational approaches. The neurobiological approaches include evidence from brain lesions which show the type of memory for which each of the brain systems considered is necessary; and analysis of neuronal activity in each of these systems to show what information is represented in them, and the changes that take place during learning. Much of the neurobiology considered is from non-human primates as well as humans, because the operation of some of the brain systems involved in memory and connected to them have undergone great development in primates. Some such brain systems include those in the temporal lobe, which develops massively in primates for vision, and which sends inputs to the hippocampus via highly developed parahippocampal regions; and the prefrontal cortex. Many memory systems in primates receive outputs from the primate inferior temporal visual cortex, and understanding the perceptual representations in this of objects, and how they are appropriate as inputs to different memory systems, helps to provide a coherent way to understand the different memory systems in the brain (see [82], which provides a more extensive treatment of the brain architectures used for perception and memory). The computational approaches are essential in order to understand how the circuitry could retrieve as well as store memories, the capacity of each memory system in the brain, the interactions between memory and perceptual systems, and the speed of operation of the memory systems in the brain.