Publications

From Plane Crashes to Algorithmic Harm: Applicability of Safety Engineering Frameworks for Responsible ML

Shalaleh Rismani

Renee Shelby

Andrew J Smart

Edgar Jatho

Joshua A. Kroll

AJung Moon

Negar Rostamzadeh

2023-04-19

Proceedings of the 2023 CHI Conference on Human Factors in Computing Systems (published)

doi.org

openreview.net

Investigating the Nature of 3D Generalization in Deep Neural Networks

Shoaib Ahmed Siddiqui

David Scott Krueger

Thomas M. Breuel

2023-04-19

ArXiv (preprint)

doi.org

arxiv.org

Playing the System: Can Puzzle Players Teach us How to Solve Hard Problems?

Renata Mutalova

Roman Sarrazin-Gendron

Eddie Cai

Gabriel Richard

Parham Ghasemloo Gheidari

Sébastien Caisse

Rob Knight

Mathieu Blanchette

Attila Szantner

Jérôme Waldispühl

2023-04-19

International Conference on Human Factors in Computing Systems (published)

doi.org

Class imbalance should not throw you off balance: Choosing the right classifiers and performance metrics for brain decoding with imbalanced data

2023-04-18

NeuroImage (published)

doi.org

Using rare genetic mutations to revisit structural brain asymmetry

Jakub Kopal

Kuldeep Kumar

Kimia Shafighi

Karin Saltoun

Claudia Modenato

Clara A. Moreau

Guillaume Huguet

Martineau Jean-Louis

Charles-Olivier Martin

C.O. Martin

Zohra Saci

Nadine Younis

Elise Douard

Khadije Jizi

Alexis Beauchamp-Chatel

Leila Kushan

Ana I. Silva

Marianne B.M. van den Bree

David E.J. Linden

M. J. Owen … (see 11 more)

Jeremy Hall

Sarah Lippé

Bogdan Draganski

Ida E. Sønderby

Ole A. Andreassen

David C. Glahn

Paul M. Thompson

Carrie E. Bearden

Robert Zatorre

Sébastien Jacquemont

Danilo Bzdok

2023-04-18

bioRxiv (preprint)

doi.org

Fast D
<sub>M,M</sub> calculation in LDR brachytherapy using deep learning methods

Francisco Berumen

Shirin A. Enger

Luc Beaulieu

2023-04-14

Physics in Medicine and Biology (published)

doi.org

Meta Pseudo Labels for Anomaly Detection via Partially Observed Anomalies

Sinong Zhao

Zhaoyang Yu

Xiaofei Wang

T. Marbach

Gang Wang

Xiaoguang Liu

2023-04-14

Database Systems for Advanced Applications (published)

doi.org

VulANalyzeR: Explainable Binary Vulnerability Detection with Multi-task Learning and Attentional Graph Convolution

Litao Li

Steven H. H. Ding

Yuan Tian

Benjamin Fung

Philippe Charland

Weihan Ou

Leo Song

Congwei Chen

2023-04-14

ACM Transactions on Privacy and Security (published)

doi.org

SemEval-2023 Task 12: Sentiment Analysis for African Languages (AfriSenti-SemEval)

Shamsuddeen Hassan Muhammad

Idris Abdulmumin

Seid Muhie Yimam

David Ifeoluwa Adelani

Ibrahim Ahmad

Nedjma OUSIDHOUM

Abinew Ayele

Saif Mohammad

Meriem Beloucif

2023-04-13

ArXiv (preprint)

doi.org

arxiv.org

Structure-aware protein self-supervised learning

Can Chen

Jingbo Zhou

F. Wang

Xue (Steve) Liu

Dejing Dou

2023-04-13

Bioinformatics (published)

doi.org

arxiv.org

Adaptive patch foraging in deep reinforcement learning agents

Nathan Wispinski

Andrew Butcher

Kory Wallace Mathewson

Craig S Chapman

Matthew Botvinick

Patrick M. Pilarski

Patch foraging is one of the most heavily studied behavioral optimization challenges in biology. However, despite its importance to biologic… (see more)al intelligence, this behavioral optimization problem is understudied in artificial intelligence research. Patch foraging is especially amenable to study given that it has a known optimal solution, which may be difficult to discover given current techniques in deep reinforcement learning. Here, we investigate deep reinforcement learning agents in an ecological patch foraging task. For the first time, we show that machine learning agents can learn to patch forage adaptively in patterns similar to biological foragers, and approach optimal patch foraging behavior when accounting for temporal discounting. Finally, we show emergent internal dynamics in these agents that resemble single-cell recordings from foraging non-human primates, which complements experimental and theoretical work on the neural mechanisms of biological foraging. This work suggests that agents interacting in complex environments with ecologically valid pressures arrive at common solutions, suggesting the emergence of foundational computations behind adaptive, intelligent behavior in both biological and artificial agents.

2023-04-12

TMLR (accepted)

doi.org

openreview.net

Autonomous optimization of neuroprosthetic stimulation parameters that drive the motor cortex and spinal cord outputs in rats and monkeys

Marco Bonizzato

Rose Guay Hottin

Sandrine L. Côté

Elena Massai

Leo Choiniere

Uzay Macar

Samuel Laferrière