Felix Zhou
Title
Cited by
Cited by
Year
Diverse and robust molecular algorithms using reprogrammable DNA self-assembly
D Woods, D Doty, C Myhrvold, J Hui, F Zhou, P Yin, E Winfree
Nature 567 (7748), 366-372, 2019
892019
Diverse and robust molecular algorithms using reprogrammable DNA self-assembly
D Woods, D Doty, C Myhrvold, J Hui, F Zhou, P Yin, E Winfree
Nature 567 (7748), 366-372, 2019
892019
Diverse and robust molecular algorithms using reprogrammable DNA self-assembly
E Woods, Damien and Doty, David and Myhrvold, Cameron and Hui, Joy and Zhou ...
Nature 567 (7748), 366, 2019
892019
Endoscopy artifact detection (EAD 2019) challenge dataset
S Ali, F Zhou, C Daul, B Braden, A Bailey, S Realdon, J East, ...
arXiv preprint arXiv:1905.03209, 2019
412019
A deep learning framework for quality assessment and restoration in video endoscopy
S Ali, F Zhou, A Bailey, B Braden, J East, X Lu, J Rittscher
Medical Image Analysis, 101900, 2020
372020
An objective comparison of detection and segmentation algorithms for artefacts in clinical endoscopy
S Ali, F Zhou, B Braden, A Bailey, S Yang, G Cheng, P Zhang, X Li, ...
Scientific Reports 10 (1), 1-15, 2020
372020
An Autonomous Oscillation Times and Executes Centriole Biogenesis
MG Aydogan, TL Steinacker, M Mofatteh, ZM Wilmott, FY Zhou, ...
Cell, 2020
102020
Visualization of T Cell Migration in the Spleen Reveals a Network of Perivascular Pathways that Guide Entry into T Zones
A Chauveau, G Pirgova, HW Cheng, A De Martin, FY Zhou, S Wideman, ...
Immunity, 2020
92020
Cell autonomous role of iASPP deficiency in causing cardiocutaneous disorders
Z Dedeić, G Sutendra, Y Hu, K Chung, EA Slee, MJ White, FY Zhou, ...
Cell Death & Differentiation 25 (7), 1289, 2018
62018
Motion sensing superpixels (MOSES) is a systematic computational framework to quantify and discover cellular motion phenotypes
FY Zhou, C Ruiz-Puig, RP Owen, MJ White, J Rittscher, X Lu
eLife 8, e40162, 2019
42019
ASPP2/PP1 complexes maintain the integrity of pseudostratified epithelia undergoing remodelling during morphogenesis
C Royer, E Sandham, E Slee, J Godwin, N Veits, H Hathrell, F Zhou, ...
bioRxiv, 2020
2020
Characterization of Biological Motion Using Motion Sensing Superpixels
FY Zhou, C Ruiz-Puig, RP Owen, MJ White, J Rittscher, X Lu
Bio-protocol 9 (18), e3365, 2019
2019
Correction: Motion sensing superpixels (MOSES) is a systematic computational framework to quantify and discover cellular motion phenotypes
FY Zhou, C Ruiz-Puig, RP Owen, MJ White, J Rittscher, X Lu
eLife 8, e49823, 2019
2019
Motion Sensing Superpixels (MOSES): A systematic framework to quantify and discover cellular motion phenotypes
FY Zhou, C Ruiz-Puig, RP Owen, MJ White, J Rittscher, X Lu
bioRxiv, 248104, 2018
2018
Phenotyping cellular motion
F Zhou
University of Oxford, 2017
2017
Characterization of Biological Motion Using Motion Sensing Superpixels
K Mehta, F Haque
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Articles 1–16