Linear Programming

  • 영업 담당 문의
  • 평가판

Minimize linear functions subject to constraints

Linear programming (LP) involves minimizing or maximizing an objective function subject to bounds, linear equality, and inequality constraints. Example problems include design optimization in engineering, profit maximization in manufacturing, portfolio optimization in finance, and scheduling in energy and transportation.

Linear programming is the mathematical problem of finding a vector x that minimizes the function:
2

Subject to the linear constraints:

5 (inequality constraint)
7 (equality constraint)
9 (bound constraint)

The following algorithms are commonly used to solve linear programming problems:

  • Interior point: Uses a primal-dual predictor-corrector algorithm and is especially useful for large-scale problems that have structure or can be defined using sparse matrices.
  • Active-set: Minimizes the objective at each iteration over the active set (a subset of the constraints that are locally active) until it reaches a solution.
  • Simplex: Uses a systematic procedure for generating and testing candidate vertex solutions to a linear program. The simplex algorithm is the most widely used algorithm for linear programming.

For more information on algorithms and linear programming, see Optimization Toolbox.

Examples and How To

Software Reference

See also: Optimization Toolbox, Global Optimization Toolbox, quadratic programming, nonlinear programming, multiobjective optimization, genetic algorithm, simulated annealing