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June 01, 2015
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Date:09TuesdayApril 2024Lecture
Information processing in spiking networks: Converging assemblies
More information Time 12:30 - 13:30Location Gerhard M.J. Schmidt Lecture HallLecturer Prof. Eran Stark
Sagol Department of Neurobiology Haifa UniversityOrganizer Department of Brain SciencesContact Abstract Show full text abstract about How information is processed within the brain is a key quest...» How information is processed within the brain is a key question in systems neuroscience. We address the issue in spiking neuronal networks of freely moving mice. I will describe our recent findings and conclusions pertaining to three specific information processing steps: transmission, representation, and storage.
First, using feedforward optogenetic injection of white noise input to a small group of adjacent neocortical excitatory cells, we find that spike transmission to a postsynaptic cell exhibits error correction, improved precision, and temporal coding. The results are consistent with a nonlinear coincidence detection model in the postsynaptic neuron.
Second, by triggering input on animal kinematics, we create an artificial place field in an otherwise-silent pyramidal cell. In hippocampal region CA1 but not in the neocortex, artificial fields exhibit synthetic phase precession that persists for a full cycle. The local conversion of an induced rate code into an emerging phase code is compatible with a dual-oscillator interference model.
Third, by triggering input on spontaneous spiking, we impose self-terminating spike patterns in a group of presynaptic excitatory neurons and a postsynaptic cell. The precise timing of all pre- and postsynaptic spikes has a more substantial impact on long-lasting effective connectivity than that of individual cell pairs, revealing an unexpected plasticity mechanism.
We conclude that intrinsic properties of single neurons support millisecond-timescale operations, and that cortical networks are organized in functional modules which we refer to as “converging assemblies”.
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Date:09TuesdayApril 2024Lecture
Beyond Touch: Exploring Audible Aspects of Rodent Whisking
More information Time 14:00 - 15:00Location Arthur and Rochelle Belfer Building for Biomedical ResearchLecturer Ben Efron PhD Thesis Defense
Advisor: Prof. Ilan LamplOrganizer Department of Brain SciencesContact Abstract Show full text abstract about Sensory processing is fundamental for animal adaptation and ...» Sensory processing is fundamental for animal adaptation and survival, linking them to their environments. Understanding the nervous system's integration of sensory information is crucial for comprehending behavior and cognition. This process involves integrating external cues across modalities, along with internal states, cognitive processes, and motor control, leading to complex behaviors and a nuanced understanding of the world. To facilitate research on these processes, we aimed to identify natural behaviors that produce both auditory and somatosensory stimuli, steering clear of artificial stimulus sources. We discovered that whisking, previously considered a unimodal behavior associated solely with tactile sensations, also produces sounds with distinctive acoustic features within the auditory frequency range of mice. We explored the auditory neuronal representation of sounds generated by whisking and their implications for behavioral performance. We demonstrate that sounds produced by whisking elicit diverse neuronal responses in the auditory cortex, encoding the object's identity and the mouse's whisking state, even in the absence of tactile sensations. Furthermore, we show that mice are capable of completing behavioral tasks relying solely on auditory cues generated by whisking against objects.
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Date:09TuesdayApril 2024Lecture
What Funga can teach us about DNA repair
More information Time 14:00 - 15:00Location Gerhard M.J. Schmidt Lecture HallLecturer Dr. Shay Covo
Department of Plant Pathology and Microbiology Faculty of Agriculture, Food & Environment The Hebrew University of JerusalemOrganizer Department of Chemical and Structural BiologyContact -
Date:10WednesdayApril 2024Colloquia
Chemical Exfoliation of Quantum Materials
More information Time 11:00 - 12:15Title Special ColloquiumLocation Gerhard M.J. Schmidt Lecture HallLecturer Prof. Leslie M. Schoop
Department of Chemistry, Princeton UniversityHomepage Contact Abstract Show full text abstract about A large portion of research in 2D materials is limited to me...» A large portion of research in 2D materials is limited to mechanical exfoliation of van der Waals (vdW) materials. Chemical exfoliation is a relatively under-utilized route for preparing ultra-thin quantum materials, but it accesses 2D materials that cannot be obtained by mechanical “Scotch -taping.'” It is also a way to mass produce 2D materials, as mechanical taping only accesses small amounts, insufficient for industrial applications. However, chemical exfoliation comes with the drawback that it commonly introduces many defects into the 2D sheets. In this talk I will show the challenges of using chemical exfoliation for 2D quantum materials synthesis, to then introduce two systems in which the approach was successful.
I will show that we can use chemical exfoliation to synthesize large qualities of stable and magnetic monolayers of VOCl. Films of these high-quality sheets are shown to possess similar magnetic properties as the bulk crystals. I will also discuss the synthesis of a stable, aqueous ink of superconducting 1T'-WS2 monolayers. Films printed with the ink are superconducting below 7.3 K and show typical behavior of 2D superconductivity. This ink and its dried, printed version, is stable in ambient conditions. It is ideally suited for applications in flexible and printed electronics. Thus, we were able to establish that chemical exfoliation is of use for quantum materials synthesis. -
Date:11ThursdayApril 2024Colloquia
Toward Autonomous “Artificial Cells” in 2D
More information Time 11:15 - 12:30Title Physics colloquiumLocation Edna and K.B. Weissman Building of Physical SciencesLecturer Prof. Roy Bar-Ziv
Weizmann Institute of ScienceOrganizer Department of Physics of Complex SystemsContact Abstract Show full text abstract about We study the assembly of programmable quasi-2D DNA compartme...» We study the assembly of programmable quasi-2D DNA compartments as “artificial cells”, from the individual cellular level to multicellular communication. We will describe work on autonomous synthesis and assembly of cellular machines, collective modes of synchrony in a 2D lattice of ~1000 compartments, and a first look at the birth of proteins on a single DNA. -
Date:11ThursdayApril 2024Lecture
Vision and AI
More information Time 12:15 - 13:15Title Challenges in Large-scale Text-to-Image Models: From Text-Image Alignment to 3D DistillationLocation Jacob Ziskind BuildingLecturer Or Patashnik
TAUOrganizer Department of Computer Science and Applied MathematicsContact Abstract Show full text abstract about The rapid advancement of Large-scale Text-to-Image models ha...» The rapid advancement of Large-scale Text-to-Image models has revolutionized generative tasks by producing high-quality images from textual prompts. However, amid the progress, significant challenges persist, three of which will be the focus of my talk. First, the issue of alignment between the text prompt and the resulting image, particularly evident when multiple subjects are present in the prompt. Second, the challenge of effectively utilizing recent image editing techniques to consistently edit images captured from varying views. Third, the task of distilling the 2D prior knowledge to enhance generation capabilities across diverse domains.
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Date:11ThursdayApril 2024Lecture
Melanosomes as cancer immune modulators
More information Time 14:00 - 15:00Location Max and Lillian Candiotty BuildingLecturer Prof. Carmit Levy
Faculty of Medicine, Tel Aviv UniversityOrganizer Dwek Institute for Cancer Therapy ResearchContact -
Date:11ThursdayApril 2024Lecture
Friction and Time Measurement: How the Invention of the Pendulum Made Clocks Much More Accurate
More information Time 14:00 - 15:00Location Gerhard M.J. Schmidt Lecture HallLecturer Pro. Michael Nosonovsky Organizer Braginsky Center for the Interface between Science and the HumanitiesContact -
Date:14SundayApril 2024Conference
SHEBA- WIS conference
More information Time 08:00 - 08:00Location Arthur and Rochelle Belfer Building for Biomedical ResearchChairperson Eran Hornstein -
Date:15MondayApril 2024Lecture
Midrasha on Groups Seminar
More information Time 11:15 - 13:00Title Deformations of Affine Structures on the Three TorusLocation Elaine and Bram Goldsmith Building for Mathematics and Computer SciencesLecturer Dr. Arielle Leitner
AfekaOrganizer Department of MathematicsContact Abstract Show full text abstract about In the first portion I'll give an introduction and moti...» In the first portion I'll give an introduction and motivation for geometric structures on manifolds, and discuss affine structures. Then I will explain the classification of affine structures on the 2 torus (Nagano and Yagi, Arrowsmith and Furness, Baues, Goldman) and deformations (Baues and Goldman). Then I will discuss the classification of affine structures on the 3 torus, and progress on the deformation space. Everything is joint work in progress with Max Reistenberg.
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Date:15MondayApril 2024Lecture
Midrasha on Groups Seminar
More information Time 14:15 - 16:00Title Expanders, Representation Theory and EverythingLocation Jacob Ziskind BuildingLecturer Paul Vollrath
WeizmannOrganizer Department of MathematicsContact Abstract Show full text abstract about I am going to give a very basic exposition of Exapnder Graph...» I am going to give a very basic exposition of Exapnder Graphs defining them spectrally and via the Cheeger constant. I will show how to construct expanders from groups with (T). Contrasting this construction with amenability I will show amenability’s connection to soficity. If time permits, I will give a short introduction to p-adic numbers in the end as reference for talks to come.
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Date:15MondayApril 2024Lecture
טבע ואדם ביפן: תרבות יפן בנוף הולדתה
More information Time 19:30 - 21:00Location Nella and Leon Benoziyo Building for Biological SciencesOrganizer Department of Biomolecular SciencesContact -
Date:16TuesdayApril 2024Lecture
Consciousness and the brain: comparing and testing neuroscientific theories of consciousness
More information Time 12:30 - 13:30Location Gerhard M.J. Schmidt Lecture HallLecturer Prof. Liad Mudrik
Sagol School of Neuroscience, School of Psychological Sciences, Tel Aviv UniversityOrganizer Department of Brain SciencesContact Abstract Show full text abstract about For centuries, consciousness was considered to be outside th...» For centuries, consciousness was considered to be outside the reach of scientific investigation. Yet in recent decades, more and more studies have tried to probe the neural correlates of conscious experience, and several neuronally-inspired theories for consciousness have emerged. In this talk, I will focus on four leading theories of consciousness: Global Neuronal Workspace (GNW), integrated Information Theory (IIT), Recurrent Processing Theory (RPT) and Higher Order Theory (HOT). I will first shortly present the guiding principles of these theories. Then, I will provide a bird's-eye view of the field, using the results of a large-scale quantitative and analytic review we conducted, examining all studies that either empirically tested these theories or interpreted their findings with respect to at least one of them. Finally, I will describe the first results of the Cogitate consortium - an adversarial collaboration aimed at testing GNW and IIT.
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Date:16TuesdayApril 2024Lecture
High Throughput Approaches to Study the Roles of RNA Structures in Long RNAs
More information Time 14:00 - 15:00Location Gerhard M.J. Schmidt Lecture HallLecturer Prof. Igor Ulitsky
Department of Immunology and Regenerative Biology, Faculty of Biology, WISOrganizer Department of Chemical and Structural BiologyContact -
Date:17WednesdayApril 2024Lecture
Gating nociception by axonal pruning
More information Time 10:00 - 11:00Location Arthur and Rochelle Belfer Building for Biomedical ResearchLecturer Prof. Avraham Yaron
Dept of Biomolecular Sciences and Dept of Molecular NeuroscienceContact -
Date:17WednesdayApril 2024Lecture
Egr1 regulates regenerative senescence and cardiac repair
More information Time 14:00 - 14:00Title PhD Thesis Defense by Lingling Zhang (Prof. Eldad Tzahor Lab)Location Wolfson Building for Biological ResearchLecturer Dr. Lingling Zhang
(Prof. Eldad Tzahor Lab)Organizer Department of Molecular Cell BiologyContact -
Date:17WednesdayApril 2024Lecture
AI at the Interface of Academia and Industry
More information Time 15:30 - 20:00Title Science Driving Technological Advancements In memory of Prof. Haim GartyLocation The David Lopatie Conference CentreLecturer Shie Mannor, Amnon Shashua, Prof. Michal Irani Organizer Center for Translational Research in Memory of Prof. Haim GartyContact Abstract Show full text abstract about You are all invited to register and attend. Kindly note the...» You are all invited to register and attend.
Kindly note the poster* submission deadline – March 18th.
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Date:18ThursdayApril 2024Lecture
Vision and AI
More information Time 12:15 - 13:15Title The return of engineeringLocation Jacob Ziskind BuildingLecturer Yair Weiss
HUJIOrganizer Department of Computer Science and Applied MathematicsContact Abstract Show full text abstract about A few years after the deep learning revolution in computer v...» A few years after the deep learning revolution in computer vision it became apparent that despite their amazing performance, DL classifiers are remarkably brittle and can often be fooled by tiny perturbations of the input (e.g. a 1 pixel translation of the image). While these results received much attention, for the most part modern classifiers continue to be trained to optimize accuracy with the hope that robustness will emerge "for free" when training is done on large scale datasets with appropriate data augmentation.
In the first part of my talk, I will present empirical evaluations that show that SOTA image classifiers (e.g. DINOV2) trained on billions of images with data augmentation are still highly brittle. In the second part of the talk, I will present classifiers that we developed using a more standard, engineering, approach. Rather than hoping that robustness will emerge for free, we try to understand the source of the failure and to create systems that build on the success of DL but are explicitly designed to be robust.
Joint work with Hadar Yosef. Amir Hagai and Ofir Shifman.
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Date:18ThursdayApril 2024Lecture
Geometric Functional Analysis and Probability Seminar
More information Time 13:30 - 14:30Title Algorithmic aspect of the continuous random energy modelLocation Jacob Ziskind BuildingLecturer Dr. Fu-Hsuan Ho
WISOrganizer Department of MathematicsContact Abstract Show full text abstract about In this talk, I will discuss about two algorithmic problems ...» In this talk, I will discuss about two algorithmic problems in the setting of the continuous random energy model. The first part of the talk concerns finding a state in a given energy level, and the second part concerns sampling of the Gibbs measure of this model. I will explain the link between the two problems, and talk about some further directions if time permits.
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Date:18ThursdayApril 2024Lecture
A DNA methylation atlas of normal human cell types
More information Time 14:00 - 15:00Location Max and Lillian Candiotty BuildingLecturer Prof. Tommy Kaplan
School of Computer Science and Engineering, and, Faculty of Medicine The Hebrew University of Jerusalem, IsraelOrganizer Dwek Institute for Cancer Therapy ResearchContact