no code implementations • 9 Nov 2023 • Joachim A. Behar, Jeremy Levy, Leo Anthony Celi
Re-calibration using transfer learning may not even be possible in some instances where reference labels of target domains are not available.
no code implementations • 7 Sep 2023 • Joachim A. Behar, Jeremy Levy, Eran Zvuloni, Sheina Gendelman, Aviv Rosenberg, Shany Biton, Raphael Derman, Jonathan A. Sobel, Alexandra Alexandrovich, Peter Charlton, Márton Á Goda
PhysioZoo is a collaborative platform designed for the analysis of continuous physiological time series.
no code implementations • 4 Jun 2021 • Jeremy Levy, Alexander Naitsat, Yehoshua Y. Zeevi
Compared with baseline methods, our model achieves superior results for binary and multi-class classifications of common respiratory diseases.
no code implementations • 12 Mar 2021 • Erin Sheridan, Gang Li, Mamun Sarker, Shan Hao, Ki-Tae Eom, Chang-Beom Eom, Alexander Sinitskii, Patrick Irvin, Jeremy Levy
We investigate the optical response of graphene nanoribbons (GNRs) using the broadband nonlinear generation and detection capabilities of nanoscale junctions created at the LaAlO$_3$/SrTiO$_3$ interface.
Mesoscale and Nanoscale Physics Optics
no code implementations • 21 Dec 2020 • François Damanet, Elliott Mansfield, Megan Briggeman, Patrick Irvin, Jeremy Levy, Andrew J. Daley
Motivated by recent experiments in 1D electron channels written on the $\mathrm{LaAlO_3}$/$\mathrm{SrTiO_3}$ interface, we analyse how the presence of different forms of spin-orbit coupling (SOC) can enhance electron pairing in 1D waveguides.
Quantum Physics Mesoscale and Nanoscale Physics Strongly Correlated Electrons
no code implementations • 10 Dec 2020 • Jeremy Levy, Daniel Alvarez, Felix del Campo, Joachim A. Behar
Approach: We hypothesize that patients with COPD will exert certain patterns and/or dynamics of their overnight oximetry time series that are unique to this condition.
1 code implementation • 12 Sep 2019 • Megan Briggeman, Michelle Tomczyk, Binbin Tian, Hyungwoo Lee, Jung-Woo Lee, Yuchi He, Anthony Tylan-Tyler, Mengchen Huang, Chang-Beom Eom, David Pekker, Roger S. K. Mong, Patrick Irvin, Jeremy Levy
The ability to create and investigate composite fermionic phases opens new avenues for the investigation of strongly correlated quantum matter.
Strongly Correlated Electrons