Prof Chunhua Ou, Memorial University of Newfoundland, Canada
Prof. Chunhua Ou is a Full Professor in the Department of Mathematics at Memorial University, Canada, specializing in asymptotic analysis, applied differential equations, and mathematical modeling in biology. He earned his PhD in Mathematics from City University of Hong Kong in 2003. Prof. Ou has received multiple awards, including the “One of the Most Cited Articles” in Journal of Differential Equations (2012). His research focuses on reaction-diffusion equations, tumor growth, and population dynamics. He has taught various graduate and undergraduate courses and secured significant research funding. πππ¬π§¬
Publication Profile
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Education
Prof. Chunhua Ou is a distinguished mathematician with a rich academic background. He earned his PhD in 2003 from the Department of Mathematics at City University of Hong Kong, where he conducted research on “Two Topics in Ordinary Differential Equations” under the supervision of R. Wong and James S.W. Wong. Prior to this, he pursued his Master’s studies at the Institute of Mathematics, Fudan University, from 1998 to 2000 before transferring directly into the Ph.D. program at CityU. Prof. Ou completed his BSc in 1989 from the Department of Mathematics at Peking University. ππ’
Awards
Prof. Chunhua Ou has an impressive academic background with several accolades throughout his career. His article, one of the most cited (2007-2012) in the Journal of Differential Equations, highlights his contribution to the field. He received a prestigious postdoctoral fellowship from the Laboratory of Industrial and Applied Mathematics at York University in 2003. Prof. Ou was also awarded multiple tuition scholarships by City University of Hong Kong in 2000 and 2001. Additionally, he earned the Excellent Teaching Achievement Prize from Hunan Province, China, in 1997, showcasing his dedication to education. ππ¨βπ«
Career & AchievementsΒ
Prof. Chunhua Ou is a distinguished academic with extensive experience, currently serving as a Full Professor at Memorial University of Newfoundland. His career has evolved from Assistant Professor to Deputy Head of the Department, reflecting his leadership in research and teaching. Prof. Ou has been recognized with numerous accolades, including the prestigious “One of the most cited articles (2007-2012)” in the Journal of Differential Equations. He has also received multiple teaching and research fellowships, underscoring his dedication to advancing knowledge in his field. ππ¨βπ«π
Grands
Prof. Chunhua Ou has received substantial research funding from various prestigious agencies over the years. From 2023 to 2026, he secured $265,000 from the NSF as a main team member. His successful tenure with NSERC began in 2006, with a total of $65,000 allocated from 2006 to 2011, followed by $55,000 from 2011 to 2016, and $108,000 from 2016 to 2022. Currently, he is awarded $105,000 for 2022β2027, distributed as $21,000 per year. Additionally, Prof. Ou received $25,000 from IRIF of the Province in 2008β2010. These funds support his ongoing innovative research. π§βπ¬π
Research Focus
Chunhua Ou’s research primarily focuses on mathematical modeling in biology, particularly in the fields of reaction-diffusion equations, traveling waves, and population dynamics. Their work includes studies on the global stability of monostable and bistable traveling waves, the persistence of wavefronts in delayed nonlocal reaction-diffusion equations, and the modeling of biological phenomena like chemotaxis, leukemia, and rabies dynamics. They explore topics such as minimal-speed selection in competition models and the influence of time delays and nonlocal effects in various biological systems. Their contributions provide valuable insights into the dynamics of spatially distributed populations and their long-term behavior. πππ¬πΎ
Publication Top Notes
Global stability of monostable traveling waves for nonlocal time-delayed reaction-diffusion equations
Persistence of wavefronts in delayed nonlocal reactionβdiffusion equations
Minimal-speed selection of traveling waves to the LotkaβVolterra competition model
Stationary solutions of a volume-filling chemotaxis model with logistic growth and their stability
Periodic oscillations of blood cell populations in chronic myelogenous leukemia
Spatial spread of rabies revisited: influence of age-dependent diffusion on nonlinear dynamics