Amir Ozhan Dehghani
@amirozhan.bsky.social
MSc #NeuroAI @Mila_Quebec | @mcgillu🇨🇦
📌 Poster Session:
When📅: Friday, April 25 from 10:00 AM to 12:30 PM
Where: Hall 3 + Hall 2B #60
Check out our project page: amirozhan.github.io/CBSOM/
See you soon!
@mila-quebec.bsky.social
When📅: Friday, April 25 from 10:00 AM to 12:30 PM
Where: Hall 3 + Hall 2B #60
Check out our project page: amirozhan.github.io/CBSOM/
See you soon!
@mila-quebec.bsky.social
April 23, 2025 at 4:11 PM
📌 Poster Session:
When📅: Friday, April 25 from 10:00 AM to 12:30 PM
Where: Hall 3 + Hall 2B #60
Check out our project page: amirozhan.github.io/CBSOM/
See you soon!
@mila-quebec.bsky.social
When📅: Friday, April 25 from 10:00 AM to 12:30 PM
Where: Hall 3 + Hall 2B #60
Check out our project page: amirozhan.github.io/CBSOM/
See you soon!
@mila-quebec.bsky.social
People who might be interested: @taliakonkle.bsky.social, @mschrimpf.bsky.social, @apurvaratan.bsky.social @nancykanwisher.bsky.social
March 9, 2025 at 7:29 PM
People who might be interested: @taliakonkle.bsky.social, @mschrimpf.bsky.social, @apurvaratan.bsky.social @nancykanwisher.bsky.social
11/ Last (but not least), this work wouldn’t have been possible without the help of my collaborators
@Xinyu Qian, @asafarahani.bsky.social and research advisor @bashivan.bsky.social ⭐️
@Xinyu Qian, @asafarahani.bsky.social and research advisor @bashivan.bsky.social ⭐️
March 9, 2025 at 7:29 PM
11/ Last (but not least), this work wouldn’t have been possible without the help of my collaborators
@Xinyu Qian, @asafarahani.bsky.social and research advisor @bashivan.bsky.social ⭐️
@Xinyu Qian, @asafarahani.bsky.social and research advisor @bashivan.bsky.social ⭐️
10/ Our results signify the potentially critical role of top-down assigned credits in shaping the topographical organization within the cortex.
March 9, 2025 at 7:29 PM
10/ Our results signify the potentially critical role of top-down assigned credits in shaping the topographical organization within the cortex.
9/ Finally, we show that compared to other baselines including classic SOM (AB-SOM) and TDANN, CB-SOM shows substantially higher alignment with neural activity in the visual cortex of both macaques (Brain-Score) and humans (NSD).
March 9, 2025 at 7:29 PM
9/ Finally, we show that compared to other baselines including classic SOM (AB-SOM) and TDANN, CB-SOM shows substantially higher alignment with neural activity in the visual cortex of both macaques (Brain-Score) and humans (NSD).
8/ Similarly, the model’s deeper layers replicated the organization of the higher-level visual cortical regions according to category-selectivity, resulting in category-selective filter clusters in these layers.
March 9, 2025 at 7:29 PM
8/ Similarly, the model’s deeper layers replicated the organization of the higher-level visual cortical regions according to category-selectivity, resulting in category-selective filter clusters in these layers.
7/ We also observed an exponentially decaying pairwise correlation between filters as a function of their distance on the simulated cortical sheet.
March 9, 2025 at 7:29 PM
7/ We also observed an exponentially decaying pairwise correlation between filters as a function of their distance on the simulated cortical sheet.
6/ Our model replicated the topographical organization seen in the primary visual cortex topographical organization, including smooth transitions in selectivity according to stimulus orientation and spatial frequency.
March 9, 2025 at 7:29 PM
6/ Our model replicated the topographical organization seen in the primary visual cortex topographical organization, including smooth transitions in selectivity according to stimulus orientation and spatial frequency.
5/ With this approach, our ResNet-18 model achieved a substantial performance boost while preserving topographical organization.
March 9, 2025 at 7:29 PM
5/ With this approach, our ResNet-18 model achieved a substantial performance boost while preserving topographical organization.
4/ We proposed an alternative approach based on self-organizing maps, Credit-Based Self-Organizing Maps(CB-SOMs), where the competition mechanism is guided by the importance of the assigned credit to each weight – i.e. filters with the highest gradient norm in each conv layer.
March 9, 2025 at 7:29 PM
4/ We proposed an alternative approach based on self-organizing maps, Credit-Based Self-Organizing Maps(CB-SOMs), where the competition mechanism is guided by the importance of the assigned credit to each weight – i.e. filters with the highest gradient norm in each conv layer.
3/ Previous approaches to simulate topographical organization in neural networks involved using various objective functions, but this often results in weaker performance on object categorization.
cell.com/neuron/fullt...
pnas.org/doi/10.1073/...
arxiv.org/pdf/2308.09431
cell.com/neuron/fullt...
pnas.org/doi/10.1073/...
arxiv.org/pdf/2308.09431
https://cell.com/neuron/fulltext/S0896-6273(24)00279-4…
March 9, 2025 at 7:29 PM
3/ Previous approaches to simulate topographical organization in neural networks involved using various objective functions, but this often results in weaker performance on object categorization.
cell.com/neuron/fullt...
pnas.org/doi/10.1073/...
arxiv.org/pdf/2308.09431
cell.com/neuron/fullt...
pnas.org/doi/10.1073/...
arxiv.org/pdf/2308.09431
2/ Cortex in many animals, including humans, is topographically organized, where functionally similar neurons are spatially close to each other. We sought to understand the computational principles underlying this visual topographical organization.
March 9, 2025 at 7:29 PM
2/ Cortex in many animals, including humans, is topographically organized, where functionally similar neurons are spatially close to each other. We sought to understand the computational principles underlying this visual topographical organization.