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Shriya Nagpal
Shriya Nagpal
Center for Applied Mathematics, Cornell University
Verified email at cornell.edu
Title
Cited by
Cited by
Year
Lymph node metastases develop through a wider evolutionary bottleneck than distant metastases
JG Reiter, WT Hung, IH Lee, S Nagpal, P Giunta, S Degner, G Liu, ...
Nature genetics 52 (7), 692-700, 2020
882020
A comparison of deterministic refinement techniques for wind farm layout optimization
SV Nagpal, MV Liu, CL Anderson
Renewable Energy 168, 581-592, 2021
102021
Domination in the hierarchical product and Vizing’s conjecture
KW S.E. Anderson, S. Nagpal
Elsevier 341 (1), 20-24, 2018
7*2018
Synchronization in random networks of identical phase oscillators: A graphon approach
SV Nagpal, GG Nair, SH Strogatz, F Parise
arXiv preprint arXiv:2403.13998, 2024
2024
Designing Robust Networks of Coupled Phase-Oscillators with Applications to the High Voltage Electric Grid
SV Nagpal, GG Nair, F Parise, CL Anderson
IEEE Transactions on Control of Network Systems, 2022
2022
Designing for Robustness in Electric Grids via a General Effective Resistance Measure
SV Nagpal, GG Nair, F Parise, CL Anderson
arXiv preprint arXiv:2201.00929, 2022
2022
Lymphatic metastases have more diverse roots than distant metastases
JG Reiter, S Nagpal, K Naxerova
bioRxiv, 828913, 2019
2019
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