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Tanvi Ranjan
Tanvi Ranjan
Research Scientist, Meta Reality Labs
Verified email at g.harvard.edu - Homepage
Title
Cited by
Cited by
Year
{FRAPpuccino}: Fault-detection through Runtime Analysis of Provenance
X Han, T Pasquier, T Ranjan, M Goldstein, M Seltzer
9th USENIX Workshop on Hot Topics in Cloud Computing (HotCloud 17), 2017
522017
Migration alters oscillatory dynamics and promotes survival in connected bacterial populations
S Gokhale, A Conwill, T Ranjan, J Gore
Nature communications 9 (1), 5273, 2018
252018
Longitudinal symptom changes and association with home time in people with schizophrenia: an observational digital phenotyping study
T Ranjan, J Melcher, M Keshavan, M Smith, J Torous
Schizophrenia Research 243, 64-69, 2022
132022
Dynamics of cancer progression and suppression: A novel evolutionary game theory based approach
J Banerjee, T Ranjan, RK Layek
2015 37th Annual International Conference of the IEEE Engineering in …, 2015
82015
Implicit motor adaptation is driven by motor performance prediction error rather than sensory prediction error
T Ranjan, M Smith
Abstract. Society for Neuroscience. Advances in motor learning and motor control, 2020
72020
Cancellation of internally generated errors from the signal driving motor adaptation
T Ranjan, M Smith
Abstract. Society for Neuroscience. Advances in Motor Learning and Motor Control, 2018
32018
Stability Analysis of Population Dynamics Model in Microbial Biofilms with Non-participating Strains
J Banerjee, T Ranjan, RK Layek
Proceedings of the 7th ACM International Conference on Bioinformatics …, 2016
22016
Even Small Visual Latencies Can Profoundly Impair Implicit Sensorimotor Learning
AM Hadjiosif, G Abraham, T Ranjan, MA Smith
bioRxiv, 2024
2024
Subtle Visual Latency Can Profoundly Impair Implicit Sensorimotor Learning
AM Hadjiosif, G Abraham, T Ranjan, MA Smith
bioRxiv, 2024.03. 14.585093, 2024
2024
Understanding the Role of Internal Predictions in Sensorimotor Adaptation
T Ranjan
Harvard University, 2022
2022
Migration alters oscillatory dynamics and promotes survival in connected bacterial populations (vol 9, 5273, 2018)
S Gokhale, A Conwill, T Ranjan, J Gore
NATURE COMMUNICATIONS 10, 2019
2019
Publisher Correction: Migration alters oscillatory dynamics and promotes survival in connected bacterial populations
S Gokhale, A Conwill, T Ranjan, J Gore
Nature Communications 10, 2019
2019
Synchronization and survival of connected bacterial populations
S Gokhale, A Conwill, T Ranjan, J Gore
APS March Meeting Abstracts 2017, H5. 002, 2017
2017
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