Shree Hari Gautam Source Confirmed
Affiliation confirmed via AI analysis of OpenAlex, ORCID, and web sources.
Researcher
University of Arkansas at Fayetteville
faculty
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Biography and Research Information
OverviewAI-generated summary
Shree Hari Gautam's research investigates the dynamics of neural activity and sensory processing. His work explores how information, such as olfactory signals, is encoded and transmitted within the brain, particularly focusing on the olfactory bulb and its projections to cortical regions. Gautam's publications examine the low-dimensional structure embedded within high-dimensional brain activity, suggesting that complex neural dynamics can be understood through simplified representations. He has also studied the collapse of complexity in brain and body activity associated with conditions like MeCP2 disruption. His research utilizes data-driven modeling to reveal differences in neuronal spiking patterns under various sensory stimulation conditions. Gautam has a publication record of 38 papers, with an h-index of 13 and over 500 citations. He has collaborated with researchers at the University of Arkansas at Fayetteville, including Srimoy Chakraborty, Antonio J. Fontenele, J. Samuel Sooter, and Ayla C. Osgood.
Metrics
- h-index: 13
- Publications: 38
- Citations: 542
Selected Publications
- Coding odor modality in piriform cortex efficiently with low-dimensional subspaces: a shared covariance decoding approach (2025) DOI
- Coding odor modality in piriform cortex efficiently with low-dimensional subspaces: a Shared Covariance Decoding approach (2024) DOI
- Sensory input to cortex encoded on low-dimensional periphery-correlated subspaces (2023) DOI
- When random variation results in functional significance (2023) DOI
- Odor modality is transmitted to cortical brain regions from the olfactory bulb (2023) DOI
- Odor modality is transmitted to cortical brain regions from the olfactory bulb (2023) DOI
- Low dimensional criticality embedded in high dimensional awake brain dynamics (2023) DOI
- Sensory input to cortex encoded on low-dimensional periphery-correlated subspaces (2022) DOI
- Odor-evoked Increases in Olfactory Bulb Mitral Cell Spiking Variability (2021) DOI
- Collapse of complexity of brain and body activity due to excessive inhibition and MeCP2 disruption (2021) DOI
- Differences in olfactory bulb mitral cell spiking with ortho- and retronasal stimulation revealed by data-driven models (2021) DOI
- Odor-evoked increases in olfactory bulb mitral cell spiking variability (2021) DOI
- Analyzing the differences in olfactory bulb mitral cell spiking with ortho- and retronasal stimulation (2021) DOI
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