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Adam Stinchcombe
Adam Stinchcombe
Associate Professor of Mathematics, University of Toronto
Verified email at math.toronto.edu
Title
Cited by
Cited by
Year
Wireless powering of ionic polymer metal composites toward hovering microswimmers
K Abdelnour, A Stinchcombe, M Porfiri, J Zhang, S Childress
IEEE/ASME Transactions on Mechatronics 17 (5), 924-935, 2011
462011
A derivative-free method for solving elliptic partial differential equations with deep neural networks
J Han, M Nica, AR Stinchcombe
Journal of Computational Physics 419, 109672, 2020
422020
Characterization of brain cancer stem cells: a mathematical approach
C Turner, AR Stinchcombe, M Kohandel, S Singh, S Sivaloganathan
Cell proliferation 42 (4), 529-540, 2009
382009
It is not the parts, but how they interact that determines the behaviour of circadian rhythms across scales and organisms
D DeWoskin, W Geng, AR Stinchcombe, DB Forger
Interface focus 4 (3), 20130076, 2014
332014
Population density approach for discrete mRNA distributions in generalized switching models for stochastic gene expression
AR Stinchcombe, CS Peskin, D Tranchina
Physical Review E 85 (6), 061919, 2012
312012
Responses to spatial contrast in the mouse suprachiasmatic nuclei
JW Mouland, AR Stinchcombe, DB Forger, TM Brown, RJ Lucas
Current biology 27 (11), 1633-1640. e3, 2017
292017
Multiplexing visual signals in the suprachiasmatic nuclei
AR Stinchcombe, JW Mouland, KY Wong, RJ Lucas, DB Forger
Cell reports 21 (6), 1418-1425, 2017
122017
Targeted modification of the Per2 clock gene alters circadian function in mPer2luciferase (mPer2Luc) mice
MR Ralph, S Shi, CH Johnson, P Houdek, TC Shrestha, P Crosby, ...
PLOS Computational Biology 17 (5), e1008987, 2021
72021
Solving elliptic equations with Brownian motion: bias reduction and temporal difference learning
C Martin, H Zhang, J Costacurta, M Nica, AR Stinchcombe
Methodology and Computing in Applied Probability 24 (3), 1603-1626, 2022
62022
Multiple entrained oscillator model of food anticipatory circadian rhythms
CC Petersen, F Cao, AR Stinchcombe, RE Mistlberger
Scientific Reports 12 (1), 9306, 2022
62022
Well‐Posed Treatment of Space‐Charge Layers in the Electroneutral Limit of Electrodiffusion
AR Stinchcombe, Y Mori, CS Peskin
Communications on Pure and Applied Mathematics 69 (12), 2221-2249, 2016
62016
M1-type, but Not M4-type, melanopsin ganglion cells are physiologically tuned to the central circadian clock
AR Stinchcombe, C Hu, OJ Walch, SD Faught, KY Wong, DB Forger
Frontiers in Neuroscience 15, 652996, 2021
52021
An efficient method for simulation of noisy coupled multi-dimensional oscillators
AR Stinchcombe, DB Forger
Journal of Computational Physics 321, 932-946, 2016
42016
Bio-inspired hovering and locomotion via wirelessly powered ionic polymer metal composites
K Abdelnour, A Stinchcombe, M Porfiri, J Zhang, S Childress
Bioinspiration, Biomimetics, and Bioreplication 7975, 187-195, 2011
42011
Promoter methylation in a mixed feedback loop circadian clock model
T Silverthorne, ES Oh, AR Stinchcombe
Physical Review E 105 (3), 034411, 2022
32022
Deep reinforcement learning of viscous incompressible flow
KMS Park, AR Stinchcombe
Journal of Computational Physics 467, 111455, 2022
22022
Fast Computation of Electrostatic Potentials for Piecewise Constant Conductivities
K Bower, K Serkh, S Alexakis, AR Stinchcombe
arXiv preprint arXiv:2205.15354, 2022
22022
A Multi-Scale Simulation of Retinal Physiology
B Abuelnasr, AR Stinchcombe
arXiv preprint arXiv:2303.04685, 2023
2023
A Phenomenological Mouse Circadian Pacemaker Model
F Cao, MR Ralph, AR Stinchcombe
Journal of Biological Rhythms 37 (3), 329-342, 2022
2022
Kinetic modelling of β-cell metabolism reveals control points in the insulin-regulating pyruvate cycling pathways
R Rahul, AR Stinchcombe, J Joseph, B Ingalls
bioRxiv, 2021.08. 02.454627, 2021
2021
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