no code implementations • 23 Apr 2024 • Seliem El-Sayed, Canfer Akbulut, Amanda McCroskery, Geoff Keeling, Zachary Kenton, Zaria Jalan, Nahema Marchal, Arianna Manzini, Toby Shevlane, Shannon Vallor, Daniel Susser, Matija Franklin, Sophie Bridgers, Harry Law, Matthew Rahtz, Murray Shanahan, Michael Henry Tessler, Arthur Douillard, Tom Everitt, Sasha Brown
This has led to growing concerns about harms from AI persuasion and how they can be mitigated, highlighting the need for a systematic study of AI persuasion.
no code implementations • 28 Nov 2022 • Michiel A. Bakker, Martin J. Chadwick, Hannah R. Sheahan, Michael Henry Tessler, Lucy Campbell-Gillingham, Jan Balaguer, Nat McAleese, Amelia Glaese, John Aslanides, Matthew M. Botvinick, Christopher Summerfield
Recent work in large language modeling (LLMs) has used fine-tuning to align outputs with the preferences of a prototypical user.
no code implementations • NAACL (GeBNLP) 2022 • Emmy Liu, Michael Henry Tessler, Nicole Dubosh, Katherine Mosher Hiller, Roger Levy
Although approximately 50% of medical school graduates today are women, female physicians tend to be underrepresented in senior positions, make less money than their male counterparts and receive fewer promotions.
no code implementations • 5 Apr 2022 • Andrew K. Lampinen, Ishita Dasgupta, Stephanie C. Y. Chan, Kory Matthewson, Michael Henry Tessler, Antonia Creswell, James L. McClelland, Jane X. Wang, Felix Hill
In summary, explanations can support the in-context learning of large LMs on challenging tasks.
1 code implementation • 28 Jul 2021 • Michael Henry Tessler, Jason Madeano, Pedro A. Tsividis, Brin Harper, Noah D. Goodman, Joshua B. Tenenbaum
The video game paradigm we pioneer here is thus a rich test bed for developing AI systems capable of acquiring and transmitting cultural knowledge.
no code implementations • NeurIPS 2021 • Maxwell Nye, Michael Henry Tessler, Joshua B. Tenenbaum, Brenden M. Lake
Human reasoning can often be understood as an interplay between two systems: the intuitive and associative ("System 1") and the deliberative and logical ("System 2").
2 code implementations • 15 Jun 2021 • Samuel Acquaviva, Yewen Pu, Marta Kryven, Theodoros Sechopoulos, Catherine Wong, Gabrielle E Ecanow, Maxwell Nye, Michael Henry Tessler, Joshua B. Tenenbaum
We present LARC, the \textit{Language-complete ARC}: a collection of natural language descriptions by a group of human participants who instruct each other on how to solve ARC tasks using language alone, which contains successful instructions for 88\% of the ARC tasks.
no code implementations • 20 May 2021 • Gregory Scontras, Michael Henry Tessler, Michael Franke
Recent advances in computational cognitive science (i. e., simulation-based probabilistic programs) have paved the way for significant progress in formal, implementable models of pragmatics.
no code implementations • 17 Aug 2016 • Long Ouyang, Michael Henry Tessler, Daniel Ly, Noah Goodman
PPLs offer a clean separation between declaring problems and solving them, which means that the scientist can automate experiment design by simply declaring her model and experiment spaces in the PPL without having to worry about the details of calculating information gain.
1 code implementation • 9 Aug 2016 • Michael Henry Tessler, Noah D. Goodman
Language provides simple ways of communicating generalizable knowledge to each other (e. g., "Birds fly", "John hikes", "Fire makes smoke").