Singapore University of Social Sciences

Basic Mathematical Optimization

Applications Open: 01 October 2019

Applications Close: 30 November 2019

Next Available Intake: January 2020

Schemes: Lifelong Learning Credit (L2C)

Language: English

Duration: 6 months

Fees: To be confirmed

Area of Interest: Science & Technology


MTH355e Basic Mathematical Optimization will provide undergraduates with an understanding of the common algorithms used in linear optimization. The topics covered are of central importance for many applications in data science and data analytics. The course gives a comprehensive introduction to the simplex method and integer programming whilst only assuming a knowledge of basic linear algebra. Additionally, the course will teach students how such algorithms are implemented using the software Gurobi.

Level: 3
Credit Units: 5
Presentation Pattern: Every January
E-Learning: BLENDED - Learning is done MAINLY online using interactive study materials in MyUniSIM. Students receive guidance and support from online instructors via discussion forums and emails. This is supplemented with SOME face-to-face sessions. If the course has an exam component, this will be administered on-campus.


  • LU Decomposition
  • Matrix Iterative Methods
  • Formulation of a Linear Programming Model
  • The Simplex Method
  • Dual Form of a Linear Programming Problem
  • Sensitivity Analysis
  • Parametric Linear Programming
  • Branch and Bound Method
  • Either/or and 0-1 Variable Models
  • The Barrier Method
  • Goal Programming Problems involving Multiple Goals
  • Maximising Minima and Minimising Maxima

Learning Outcome

  • Formulate linear optimization problems into mathematical and graphical linear models
  • Solve linear optimisation modelling problems using the simplex method
  • Analyze linear optimization problems with the two-phase simplex solution technique
  • Apply the LU decomposition technique and the conditions of convergence for linear sets of equations
  • Employ the branch and bound method to solve integer programming and 0-1 variable models
  • Compute the optimum solution of a large linear programming model
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