2022
DOI: 10.1002/hipo.23483
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Significance of visual scene‐based learning in the hippocampal systems across mammalian species

Abstract: The hippocampus and its associated cortical regions in the medial temporal lobe play essential roles when animals form a cognitive map and use it to achieve their goals. As the nature of map-making involves sampling different local views of the environment and putting them together in a spatially cohesive way, visual scenes are essential ingredients in the formative process of cognitive maps. Visual scenes also serve as important cues during information retrieval from the cognitive map. Research in humans has … Show more

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Cited by 12 publications
(12 citation statements)
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References 201 publications
(344 reference statements)
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“…A provocative thought is that rodent place cells embody such conceptual representations through a sensory binding which links all views within the place a rodent is in. In line with this, in this issue Lee et al (2022), suggest that “visual scenes perceived by animals at specific locations and times are analogous to individual puzzle pieces that, when associated, allow forming a cognitive map of the environment.” Given that regions processing these scenes in the post rhinal cortex or parahippocampal cortex in primates, project on entorhinal cortex, one could speculate that the hippocampus performs a plasticity driven fast binding of these views in a place code. Furthermore, given that visual scenes are perceived through a larger FOV in rodents, than they are in primates, an alternate, parsimonious hypothesis to explain rodent place cells' invariance to head direction is that they represent position via a trilateration of objects (Araujo et al, 2001) or the local view pertaining to a place (McNaughton et al, 1996).…”
Section: Viewpoints Conceptual Space and Memory Recallmentioning
confidence: 87%
See 2 more Smart Citations
“…A provocative thought is that rodent place cells embody such conceptual representations through a sensory binding which links all views within the place a rodent is in. In line with this, in this issue Lee et al (2022), suggest that “visual scenes perceived by animals at specific locations and times are analogous to individual puzzle pieces that, when associated, allow forming a cognitive map of the environment.” Given that regions processing these scenes in the post rhinal cortex or parahippocampal cortex in primates, project on entorhinal cortex, one could speculate that the hippocampus performs a plasticity driven fast binding of these views in a place code. Furthermore, given that visual scenes are perceived through a larger FOV in rodents, than they are in primates, an alternate, parsimonious hypothesis to explain rodent place cells' invariance to head direction is that they represent position via a trilateration of objects (Araujo et al, 2001) or the local view pertaining to a place (McNaughton et al, 1996).…”
Section: Viewpoints Conceptual Space and Memory Recallmentioning
confidence: 87%
“…This can sometimes lead to having to turn the map on the phone (or the phone) upside down to align the heading to the viewer's perspective. Following the idea suggested by Lee et al (2022) scenes can play a critical role in effectively retrieving relevant information from a cognitive map, therefore affording predictions and trajectories. This is also in line with what is proposed by Naya and collaborators (Yang et al., 2023), in which the viewer centered signals (which are intrinsically egocentric) enable recall suitable for navigation.…”
Section: Viewpoints Conceptual Space and Memory Recallmentioning
confidence: 99%
See 1 more Smart Citation
“…Advances in virtual reality systems that are becoming more and more available in research settings also open up exciting possibilities to perform multi-task experiments by allowing rapid switches between different task and environment settings. This enables researchers to more fully characterize hippocampal coding of different spatial variables, often in combination with more complex and naturalistic environments, as further discussed elsewhere in this special issue (S. Lee et al, 2023).…”
Section: Example 1: Representations Of Current / Self Vs Remote / Oth...mentioning
confidence: 99%
“…This is a commentary on issues important in understanding hippocampal function that are raised by papers in the Special Issue of Hippocampus (2023) entitled “Hippocampal system neurons encoding views in different species” (Alexander et al, 2023; Corrigan et al, 2023; Donoghue et al, 2023; LaChance & Taube, 2023; Lee et al, 2023; Quian Quiroga, 2023; Rolls, 2023b; Ryom et al, 2023; Wang et al, 2023; Wirth, 2023; Yang et al, 2023; Zhu et al, 2023).…”
Section: Introductionmentioning
confidence: 99%