Bijun Wang

Assistant Professor

Summary

Bijun Wang joined the University of Nevada, Reno as an Assistant Professor of Industrial Engineering in 2025. Her research group focuses on Healthcare Informatics, Human Factors, Digital Health, and AI in Healthcare Systems.

Motivated students and researchers are welcome to join in spring/fall 2026 (Ph.D. candidate, or students seeking hourly research assistant positions) by sending their CV and contact information (name, institution, and email).

Education

  • Ph.D., Engineering Management, Stevens Institute of Technology, 2023
  • M.S., Industrial & Systems Engineering, Rutgers University, 2018
  • M.S., Statistics, Rutgers University, 2018

Research Areas

  • Human factors and human-technology interaction in healthcare
  • AI-driven digital health systems and patient-centered care
  • Smart and wearable health technologies for real-time monitoring
  • Healthcare workforce well-being and resilience
  • System modeling and optimization for healthcare delivery
  • Data analytics and decision support systems in healthcare

Publications

  1. Wang, B., Asan, O., & Alelyani, T. (2025). Exploring Policy and Regulations of Clinical AI Systems: View from Patients with Chronic Diseases. Health Policy and Technology.
  2. Super, I., Zhang, L., Wang, B., & Asan, O. (2025). The impact of psychological factors on interprofessional team collaboration in the ICU: A macro-ergonomic case study. Applied Ergonomics.
  3. Wang, B., & Asan, O. (2024). Shaping the future of chronic disease management: Insights into patient needs for AI-based homecare systems. International Journal of Medical Informatics (IJMI).
  4. Wang, B., & Asan, O. (2024). Mental Health and Telehealth Quality Perception: A Mediation Model Analysis. IISE Transactions on Healthcare Systems Engineering.
  5. Wang, B., Asan, O., & Mansouri, M. (2023). Chronic patients’ perspective on future acceptance of artificial intelligence-based home care systems. JMIR Human Factors.
  6. Bian, Z., Bai, Y., Liu, X., & Wang, B. (2022). An online hybrid mechanism for dynamic first-mile ridesharing service. Transportation Research Part C: Emerging Technologies.