Dr Bo Gao
Contact information
Websites
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AToME research group
The AToME (Analytical Tools for Malaria Elimination) Group is currently entirely dedicated to the Enhanced modelling for NMCP Decision-making to Accelerate Malaria Elimination (ENDGAME) project
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Modelling for Global Health Msc
The MSc in Modelling for Global Health is a full-time one-year programme which will train a new generation of modellers with cutting edge multi-disciplinary skills to support developing global health systems at sub-national, national and international levels.
Bo Gao
Research Fellow
Bo received his PhD in Computer Science from the University of Warwick's High Performance Computing Group in 2015. His PhD work was awarded with the Faculty of Science Doctoral Thesis Awards in 2016. Bo subsequently worked as a postdoctoral fellow at Warwick Systems Biology Centre supporting infrastructure and software developments facilitating bioinformatics research until February 2017. For the rest of 2017, he developed an open platform for the evaluation of intelligent transport systems as a research fellow within the Engineering and Physical Sciences department at the University of Southampton. He also initiated research in vehicle behaviour analysis through continuous aerial imagery which was awarded the ADR Challenge fund from the University of Southampton where he remains as a visiting researcher.
At the beginning of 2018, Bo joined Oxford's Tropical Medicine group as a Research Associate in Mathematical Modelling. He is currently working on developing mathematical models that support the decision making process of malaria interventions. He also teaches the computing curriculum of the MSc in Modelling for Global Health course.
Bo also has an MSc in Computer Science awarded with distinction from the University of Warwick and a BA in Business Computing awarded with first class honours from Coventry University. Interim of his academic career, he also worked as a Forecast Analyst at Vodafone's supply chain for just under 2 years. Bo is a proud alumnus of Beijing No.4 High School.
Recent publications
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Preventing antimalarial drug resistance with triple artemisinin-based combination therapies.
Journal article
Nguyen TD. et al, (2023), Nat Commun, 14
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Pre-existing partner-drug resistance to artemisinin combination therapies facilitates the emergence and spread of artemisinin resistance: a consensus modelling study.
Journal article
Watson OJ. et al, (2022), Lancet Microbe