Nonlinearity and network topology in multimodal circuits
25 April 2024
Colloquium by Dr. Marcus Gosh, Imperial College London
Abstract:
Animals continuously detect information via multiple sensory channels, like vision and hearing, and integrate these signals to realise faster and more accurate decisions; a fundamental neural process termed multisensory integration. The canonical view of this computation is that unimodal areas, like primary visual or auditory cortex, send feedforward connections to multimodal neurons, which linearly fuse information across channels. However, does this view extend beyond the laboratory?
In this talk I will present two projects which explore this question at multiple levels from probabilistic models to artificial and spiking neural networks. First, using these models and a family of novel tasks with varied statistical relationships between sensory channels, I will demonstrate that linear fusion performs sub-optimally in many tasks and even fails in extreme cases. This leads me to propose a novel nonlinear algorithm for multimodal integration which is optimal for a wide class of multimodal problems. Second, using in silico evolutionary algorithms, I will show how more naturalistic tasks, like navigation and prey-capture in multimodal environments, quickly demand more complex network architectures. Overall, my work provides new perspectives on multisensory integration, and testable hypotheses for the field to explore at multiple levels, from single neurons to behaviour.
More information can be found on the website https://neural-reckoning.org/marcus_ghosh.html.
Host: Prof. Dr. Claus Hilgetag, Department of Computational Neuroscience, UKE.
Date and time: Thursday, 25 April 2024, 3:00 p.m., Building W36, Seminar Room, UKE & via Zoom.