| 2024 Spring | BIOST 2094 Advanced R computing. (2 credit; regular course; supervise senior PhD students to teach) (Lecturer: Wenjia Wang and Rick Chang) |
| 2023 Fall | BIOST 2069 Statistical methods for omics data. (2 credit; regular course) (TA: Danyang Li) |
| 2023 Spring | BIOST 2094 Advanced R computing. (2 credit; regular course; supervise senior PhD students to teach) (Lecturer: Wei Zong and Wenjia Wang) |
| 2022 Fall | BIOST 2069 Statistical methods for omics data. (2 credit; regular course) (TA: Jian Zou) |
| 2022 Spring | BIOST 2094 Advanced R computing. (2 credit; regular course; supervise senior PhD students to teach) (Lecturer: Yujia Li and Wei Zong) |
| 2021 Fall | BIOST 2069 Statistical methods for omics data. (2 credit; regular course) (TA: Xiangning Xue) |
| 2021 Spring | BIOST 2094 Advanced R computing. (2 credit; regular course; supervise senior PhD students to teach) (Lecturer: Yusi Fang and Yujia Li) |
| 2020 Fall | BIOST 2069 Statistical methods for omics data. (2 credit; regular course) (TA: Peng Liu) |
| 2020 Spring | BIOST 2094 Advanced R computing. (2 credit; regular course; supervise senior PhD students to teach) (Lecturer: Peng Liu and Yusi Fang) |
| 2019 Fall | BIOST 2079 Introductory statistical learning for health sciences. (2 credit; regular course) (TA: Yujia Li) |
| 2019 Spring | BIOST 2094 Advanced R computing. (2 credit; regular course; supervise senior PhD students to teach) (Lecturer: Zhu Li and Peng Liu) |
| 2018 Spring | BIOST 2078 Introductory high-throughput genomic data analysis II: theories and algorithms. (2 credit; regular course) (TA: Tianzhou Ma) |
| 2018 Spring | BIOST 2094 Advanced R computing. (2 credit; regular course; supervise senior PhD students to teach) (Lecturer: Zhou Fang and Zhu Li) |
| 2017 Fall | BIOST 2055 Introductory high-throughput genomic data analysis I: data mining and applications. (3 credit; regular course) (TA: Ark Fang) |
| 2017 Spring | BIOST 2094 Advanced R computing. (2 credit; regular course; supervise senior PhD students to teach) (Lecturer: Tianzhou Ma and Zhiguang Huo) |
| 2016 Fall | BIOST 2021 Special Study: Bayesian data analysis. (2 credit; a special study course) (co-teach with students: Li Zhu, Zhiguang Huo and Tianzhou Ma) |
| 2016 Spring | BIOST 2055 Introductory high-throughput genomic data analysis I: data mining and applications. (3 credit; regular course; counts towards the elective requirement of master and PhD degrees in Biostatistics) (co-teach with Dr. Yan Lin) (TA: Silvia Liu) |
| 2015 Fall | BIOST 2078 Introductory high-throughput genomic data analysis II: theories and algorithms. (3 credit; regular course; counts towards the elective requirement of master and PhD degree in Biostatistics) (TA: Tianzhou Ma) |
| 2015 Spring | BIOST 2094 Statistical computing in R. (2 credit; regular course; supervise senior PhD students to teach) (Lecturer: Tianzhou Ma) |
| 2015 Spring | BIOST 2055 Introductory high-throughput genomic data analysis I: data mining and applications. (3 credit; regular course; counts towards the elective requirement of master and PhD degrees in Biostatistics) (co-teach with Dr. Yan Lin) (TA: Chienwei Lin) |
| 2014 Fall | BIOST 2078 Introductory high-throughput genomic data analysis II: theories and algorithms. (3 credit; regular course; counts towards the elective requirement of master and PhD degree in Biostatistics) (TA: Zhiguang Huo) |
| 2014 Spring | BIOST 2055 Introductory high-throughput genomic data analysis I: data mining and applications. (3 credit; regular course; counts towards the elective requirement of master and PhD degrees in Biostatistics) (co-teach with Dr. Yan Lin) (TA: Ying Ding) |
| 2013 Fall | BIOST 2078 Introductory high-throughput genomic data analysis II: theories and algorithms. (3 credit; regular course; counts towards the elective requirement of master and PhD degree in Biostatistics) (syllabus) (TA: Sunghwan) |
| 2013 April-June | GenSys5007 Statistical Methods and Algorithms in High-Throughput Genomic Data Analysis. (half-semester guest lectures in National Taiwan University) (syllabus) (TA: Lunching Chang) |
| 2013 Spring | BIOST 2055 Introductory high-throughput genomic data analysis I: data mining and applications. (3 credit; regular course; counts towards the elective requirement of master and PhD degrees in Biostatistics) (co-teach with Drs. Yan Lin and Wei Chen) (TA: Serena Liao) |
| 2012 Fall | BIOST 2078 Introductory high-throughput genomic data analysis II: theories and algorithms. (3 credit; regular course; counts towards the elective requirement of master and PhD degree in Biostatistics) (co-teach with Dr. Yan Lin) (slides) (TA: Lunching Chang) |
| 2012 Spring | BIOST 2055 Introductory high-throughput genomic data analysis I: data mining and applications. (3 credit; regular course; counts towards the elective requirement of master and PhD degrees in Biostatistics) (co-teach with Dr. Yan Lin) (slides) (TA: Shaowu Tang) |
| 2011 Fall | BIOST 2078 Introductory theories and algorithms for high-throughput genomic data analysis (2-credit special topic course; this course will be expanded to a 3-credit regular course in fall 2012.) (co-teach with Dr. Yan Lin) (TA: Chi Song) |
| 2011 Spring | BIOST 2055 Statistical methods and data mining in microarray analysis (3 credit; regular course) (TA: Xingbin Wang) |
| 2010 Spring | BIOST 2055 Statistical methods and data mining in microarray analysis (3 credit; regular course) |
| 2009 Spring | BIOST 2055 Statistical methods and data mining in microarray analysis (3 credit; regular course) |
| 2008 Spring | BIOST 2055 Statistical methods and data mining in microarray analysis (3 credit; regular course) |
| 2007 Spring | BIOST 2055 Statistical methods and data mining in microarray analysis (3 credit; regular course) |
| 2006 Spring | BIOST 2055 Statistical methods and data mining in microarray analysis (3 credit; regular course) |
| 2005 Spring | BIOST 2070 Statistical methods and data mining in microarray analysis (2 credit; special topic course) |
| 2005 Spring | BIOST 2025 Biostatistics seminar |
| 2004 Fall | BIOST 2025 Biostatistics seminar |
| 2004 Spring | BIOST 2025 Biostatistics seminar |