Descriptive statistics (means) for full sample and by lockdown status. by Drew B. Cameron (10687420)

AI KRegression by CHIN-CHENG CHU (20718575)

Continuous, Label-Free Phenotyping of Single Cells Based on Antibody Interaction Profiling in Microfluidic Channels by Thijs Roebroek (21081066)

“…The contrast decreases at higher flow velocities as fewer cells interact due to the increased hydrodynamic lift. …”

Continuous, Label-Free Phenotyping of Single Cells Based on Antibody Interaction Profiling in Microfluidic Channels by Thijs Roebroek (21081066)

“…The contrast decreases at higher flow velocities as fewer cells interact due to the increased hydrodynamic lift. …”

Continuous, Label-Free Phenotyping of Single Cells Based on Antibody Interaction Profiling in Microfluidic Channels by Thijs Roebroek (21081066)

“…The contrast decreases at higher flow velocities as fewer cells interact due to the increased hydrodynamic lift. …”

Continuous, Label-Free Phenotyping of Single Cells Based on Antibody Interaction Profiling in Microfluidic Channels by Thijs Roebroek (21081066)

“…The contrast decreases at higher flow velocities as fewer cells interact due to the increased hydrodynamic lift. …”

Continuous, Label-Free Phenotyping of Single Cells Based on Antibody Interaction Profiling in Microfluidic Channels by Thijs Roebroek (21081066)

“…The contrast decreases at higher flow velocities as fewer cells interact due to the increased hydrodynamic lift. …”

Continuous, Label-Free Phenotyping of Single Cells Based on Antibody Interaction Profiling in Microfluidic Channels by Thijs Roebroek (21081066)

“…The contrast decreases at higher flow velocities as fewer cells interact due to the increased hydrodynamic lift. …”

Continuous, Label-Free Phenotyping of Single Cells Based on Antibody Interaction Profiling in Microfluidic Channels by Thijs Roebroek (21081066)

“…The contrast decreases at higher flow velocities as fewer cells interact due to the increased hydrodynamic lift. …”

Continuous, Label-Free Phenotyping of Single Cells Based on Antibody Interaction Profiling in Microfluidic Channels by Thijs Roebroek (21081066)

“…The contrast decreases at higher flow velocities as fewer cells interact due to the increased hydrodynamic lift. …”

Continuous, Label-Free Phenotyping of Single Cells Based on Antibody Interaction Profiling in Microfluidic Channels by Thijs Roebroek (21081066)

“…The contrast decreases at higher flow velocities as fewer cells interact due to the increased hydrodynamic lift. …”

A novel RNN architecture to improve the precision of ship trajectory predictions by Martha Dais Ferreira (18704596)

“…To solve these challenges, Recurrent Neural Network (RNN) models have been applied to STP to allow scalability for large data sets and to capture larger regions or anomalous vessels behavior. This research proposes a new RNN architecture that decreases the prediction error up to 50% for cargo vessels when compared to the OU model. …”

Data Sheet 1_Perceived protective behavioral changes in Chinese residents post-dynamic zero-COVID policy lifting: a cross-sectional study.docx by Yuan-Yuan Song (6287387)

“…Among all behaviors, avoiding dining out or gathering with friends had the highest mean score (Mean = 4.16), while engaging in regular physical activity had the lowest (Mean = 3.32). …”

Presents the bibliometric search results. by Yan She (8639796)

S1 Data. Bibliometric analysis. S2 Data. Estrogen level analysis. S3 Data. MicroCT quantification. S4 Data. Markers of bone metabolism. by Yan She (8639796)

Modeling results of 8-week-old female C57BL/6J mice. by Yan She (8639796)

Sexual maturity status of female C57BL/6J Mice at different ages. by Yan She (8639796)

Flow chart of data screening and analysis. by Yan She (8639796)

Participants demographic data. by Gabriela Garcia (119921)

“…</p><p>Results</p><p>The exoskeleton significantly (p < .05) reduced peak erector spinae, biceps brachii activity, and heart rate across sexes, with medium to large effect sizes (η_p²> 0.1). A decrease in mean erector spinae activity was observed in males only. …”

Comparison of Mean Absolute Error (MAE) in Millimeters as a Function of Kernel Size. by Liu Liu (512237)