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

Data Sheet 1_Emotional prompting amplifies disinformation generation in AI large language models.docx by Rasita Vinay (21006911)

“…Introduction<p>The emergence of artificial intelligence (AI) large language models (LLMs), which can produce text that closely resembles human-written content, presents both opportunities and risks. …”

Feasibility of AI-powered assessment scoring: Can large language models replace human raters? by Michael Jaworski III (22156096)

Presentation 1_Tracking priming-induced language recovery in aphasia with pre-trained language models.zip by Yan Cong (1491478)

Data Sheet 1_Tracking priming-induced language recovery in aphasia with pre-trained language models.zip by Yan Cong (1491478)

Interaction plot with 95% confidence intervals generated from the GAM regression model 1 in Table 2 examining initial ED SBP and management group interactions. by Randeep S. Jawa (20489181)

GPT-4 results in decreased error rate for all tasks with increasing complexity when compared to GPT-3.5-turbo. by Jacqueline A. Jansen (14894276)

Analysis of errors of the AI model on accuracy and decision times for different tasks during the retrospective reader study. (a) by Kerol Djoumessi (21349992)

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. …”

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). …”

Feature engineering. by Youli Jiang (15249070)

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

“…This type of monitoring often relies on the use of navigation systems such as the Automatic Identification System (AIS). AIS data has been used to support the defense teams when identifying equipment defects, locating suspicious activity, ensuring ship collision avoidance, and detecting hazardous events. …”