Chapter 2 linear programming problems
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- Bu sahifa navigatsiya:
- 2.2.1 F eatures o f linear programmin g problems
- Optimal solution.
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2.2 Linear Programming Problems in Canonical
Form Linear programming problems can be expressed in the canonical form. The canon- ical form of a linear programming problem is Maximize C′X (2.1) subject to AX ≤ b, (2.2) and X ≥ 0. (2.3) Where C and X ∈ ℜn, b ∈ ℜm and A ∈ ℜm×n. Here (2.1) is called the objective function, (2.2) is a system of linear inequation constraints and (2.3) is a non-negativity constraint. 2.2.1 Features of linear programming problems In this section we state some standard definitions and some of the important characteristics of a solution to a linear programming problem formulated in the canonical form. • Feasible solution set. A set of values of the decision variables x1,x2,··· ,xn which satisfy all the constraints and also the non-negativity condition is called the feasible solution set of the linear programming problem. • Feasible solution. Each element of the feasible solution set is called a feasible solution. A feasible solution is a solution which satisfies all the con- straints and also the non-negativity conditions of the linear programming problem. 17 • Optimal solution. An optimal solution X∗ is a feasible solution subject to C′X∗ = max{C′X : AX ≤ b,X ≥ 0}. (2.4) • A (LP) is feasible if there exists at least one feasible solution. Otherwise, it is said to be infeasible. • Convex set. A set S is said to be convex set if, given any two points in the set, the line joining those two points is completely contained in the set. Mathematically, S is a convex set if for any two vectors X(1) and X(2) in S, the vector X = λX(1) +(1−λ)X(2) is also in S for any real number λ ∈ [0,1] [55]. Figure 1 and 2 represent convex set, whereas Figure 3 is not a convex set. Figure 1 Figure 2 Figure 3 • Extreme point. An extreme point of the convex set is a feasible point that
• The set of all feasible solutions of LPP is a convex set. • The optimal solution of LPP can always be associated with a feasible extreme
• Linearity of the objective function results in convexity of the objective func- tion. Linear Programming Problems are solved by some methods like the graphi- cal method, the systematic trial and error method (enumeration method) and the simplex method. The graphical method is not applicable in more than two dimensional space. The enumerate method is a native approach to solve a linear programming (which has an optimal solution) would be to generate all possible extreme points and determine which one of them gives the best objective function value. But, the simplex method, Which is a well-known and widely used method for solving linear programming problem, does this in a more efficient manner by examining only a fraction of the total number of extreme points of feasible solution set. Download 2.16 Mb. Do'stlaringiz bilan baham: 
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