I have just learned the simplex method for solving linear programs, and I'm trying to understand what it's dual problem represents.
I understand the mechanics of solving a dual problem - I do not need help with that. What I can't get (even after reading about it on Wikipedia) is the actual meanings of the y variables in the dual.
I would like to give an example all together with variable meanings in the primal problem, and what I figured out of the dual, and would ask anyone kind enough to explain the meanings in the dual:
max z = 3*x1 + 5*x2 subject to: x1 <= 4 2*x2 <= 12 3*x1 + 2*x2 <= 18 x1, x2 >= 0
In the primal problem, x1 and x2 are quantities of products A and B to be produced. 3 and 5 are their unit selling prices, respectively. Products are produced on 3 machines, M1-M3. To produce a first product, an hour of work on M1 and 3 hours on M3 are needed. To produce the second one, two hours of work are needed on both M2 and M3. Machines M1, M2, M3 can work for maximum of 4, 12 and 18 hours, respectively. Finally, I can not produce a negative quantity of any of the products.
Now, I set the dual problem:
min z = 4*y1 + 12*y2 + 18*y3 subject to: y1 + 3*y3 >= 3 y2 + 2*y3 >= 5 y1, y2, y3 >= 0
Now, the only thing I think I can figure out is that the constraints mean: - for an hour of work on M1 and 3 hours on M3, I should get payed at least 3 money units - for two hours of work on M2 and 2 hours on M3, I should get payed at least 5 money units
But, I just can't wrap my mind around the meanings of y1 and y2 variables. When I finally do the minimization, the result in z is the same in the primal (although the primal in increasing the lower bound of the result while the dual is decreasing the upper bound), but what does the objective function of the dual problem consist of?