Education
M.Sc in Operation Research: 2008-2010, Department of Mathematics, Shiraz University, GPA
16.85 on scale 20;
Thesis: Maximal Covering with Network Survivability Requirements in Wireless Networks Su-
pervisor: Prof. M. Ahmadi (Mathematics Department) Advisors: Prof. Ziarati (Computer
Science Department), Prof. Shirdareh (Mathematics Department)
• B.Sc in Applied Mathematics: 2003-2007, Department of Mathematics, Shiraz University; 2nd
place among 60 students with GPA 16.37 on scale 20
Publications
• (with Malaria MCubed Group, Michigan, USA) Pathway to Elimination: Determining optimal
annual allocation for anti-malaria interventions, (in preparation)
• (with M. Ahmadi) Second-order Connectivity index of an Infinite Class of Dendrimer Nanostars,
Digest Journal of Nanomaterials and Biostructures, 4(4):639-643, Dec. 2009
• (with M. Ahmadi) Computing the Schultz molecular topological index of some graphs, Optoelec-
tronics and Advanced Materials, 4(4): 560-561, April 2010
• (with M. Ahmadi) Atom bond connectivity index of an infinite class NS1[n] of dendrimer nanos-
tars, Optoelectronics and Advanced Materials, 4(7): 1040-1042, July 2010
• (with M. Ahmadi) Fourth-Order Connectivity index of and Infinite Class of Dendrimers, The
5th Conference and Workshop on Mathematical Chemistry, Yazd, Iran, Feb. 2012
• (with M. Ahmadi) Computing the Randic index for the Molecule NSC5C6[n], First Seminar on
the Application of Science in Nanotechnology, Iran, 2010
Presentations and Posters
• (with Malaria MCubed Group, Michigan, USA) Optimal Coverage at minimal cost: Optimiza-
tion Issues with a Dynamic Modeling Approach to Simultaneous Allocation of Multiple Anti-
Malaria Interventions, INFORMS, Nashville, TN, July 2015
• (poster with Malaria MCubed Group, Michigan, USA) Optimal coverage at minimal cost: a
dynamic modeling approach to simultaneous allocation of multiple anti-malaria interventions,
63rd Annual Meeting of the American Society of Tropical Medicine and Hygiene, October 2014
Selected Recent Research Projects
• Stationary vs. non-stationary optimization algorithms for anti-malaria interventions, Malaria
Mcubed, 2015
• Sensitivity Analysis: How parameters effect the dynamical model of malaria and the prevalence
of infected people?, Malaria Mcubed, University of Michigan, 2015
• Optimal allocation of multiple anti-malaria interventions: Minimizing the total number of in-
fected people, given an annual budget (based on the data in Kenya), Malaria Mcubed, University
of Michigan, 2014
• Pathway to elimination: Determining optimal annual budgets to reach a desired prevalence,
Malaria Mcubed, University of Michigan, 2015
• Predicting the probability of no-show in hospital appointments (Detroit Data Set), Fall 2013,
(Under Supervision of Professor Kai Yang, Wayne State University, Michigan)
• How do reminder calls effect the probability of no-show in hospital appointments? (Pittsburgh
Data Set), Winter 2014, (Under Supervision of Professor Kai Yang, Wayne State University,
Michigan)
Teaching Experiences
• Elementary Programming (C), Applied Sciences University, Iran, 2010
• Discrete Events System Simulation, Applied Sciences University, Iran, 2012-2013
• Calculus, Zand University, 2012, Iran
• Probability and Statistics, Applied Sciences
Software Capabilities
• MATLAB, C, C++, ARENA, R
Fields of Interest
• Biostatistics
• Statistical Methods Applied to Health
• Infectious Disease Epidemiology
• Data Analysis
• Operations Research
References
• Mark L. Wilson, Professor of Epidemiology,
School of Public Health,
University of Michigan, Ann Arbor, USA.
Email: wilsonml@umich.edu
• David W. Huton, Assistant Professor of Health Management and Policy,
School of Public Health,
University of Michigan, Ann Arbor, USA
Email: dwhutton@umich.edu
• Ravi M. Anupindi, David B. Hermelin Professor of Business Administration,
School of Business,
University of Michigan, Ann Arbor, USA.
Email: anupindi@umich.edu