Question Bank Optimization Theory
a. Feasible region. b. Feasible solution. c. Optimal solution. d. Unbounded solution. e. Artificial variable.
method? 23. What do you understand by transportation problem? 24. List any three approaches used with T.P for determining the starting solution. 25. What do you mean by degeneracy in a T.P? 26. What do you mean by an unbalanced T.P? 27. How do you convert the unbalanced T.P into a balanced one? 35. What is an assignment problem? 37. State the difference between the T.P and A.P. 38. What is the objective of the traveling salesman problem? 39. How do you convert the maximization assignment problem into a minimization one? 40. What is the name of the method used in getting the optimum assignment? 41. What do you mean by integer programming problem? 42. Define a pure integer programming problem. 43. Define a mixed integer programming problem. 44. Differentiate between pure and mixed IPP. 45. What are the methods used in solving IPP 46. Explain Gomorian constraint (or) Fractional Cut constraint. 47. Where is branch and bound method used? 48. What is dynamic programming? 49. Define the terms in dynamic programming : stage, state ,state variables 50. State Bellman's principle of optimality. Numericals 1. A paper mill produces 2 grades of paper namely X and Y. Because of raw material restrictions, it cannot produce more than 400 tonnes of grade X and 300 tonnes of grade Y in a week. There are 160 production hours in a week. It requires 0.2 and 0.4 hours to produce a ton of products X and Y respectively with corresponding profits of Rs.200 and Rs. 500 per ton. Formulate the above as a LPP to maximize profit and find the optimum product mix. 2. A company produces 2 types of hats. Every hat A require twice as much labour time as the second hat be. If the company produces only hat B then it can produce a total of 500 hats a day. The market limits daily sales of the hat A and hat B to 150 and 250 hats. The profits on hat A and B are Rs.8 and Rs.5 respectively. Solve graphically to get the optimal solution. 3. A company wishes to advertise its products on local radio and TV stations. Each minute of radio advertisement will cost Rs.50 and each minute of TV advertisement will cost Rs. 600. The budget of the company limits the advertisement expenditure to Rs.25000 per month. The company decides to use radio atleast twice as much as TV. Past records of the company show that each minute of TV advertisement will generate 30 times as many sales as each minute radio advertisement. Formulate the problem for optimal allocation of monthly budget to radio and TV advertisement. 4. Use graphical method to solve the following LPP Maximize Z = 2x1+4x2 subject to the constraints x1+2x2 = 5, x1+x2 = 4, x1, x2 ≥ 0 5. Use simplex method to solve the following LPP Maximize Z = 4x1+10x2 subject to the constraints 2x1+x2 ≤ 50, 2x1+5x2 ≤100, 2x1+3x2 ≤ 90, x1, x2 ≥0 6. Solve the following problem by simplex method Minimize Z = x1-3x2+2x3 subject to the constraints 3x1-x2+2x3 ≤ 7, -2x1+4x2 ≤ 12, -4x1+3x2+8x3 ≤ 10, x1, x2, x3 ≥ 0 7. Use Big M method to Maximize Z = 3x1+2x2 subject to the constraints 2x1+x2 ≤ 2, 3x1+4x2 ≥ 12, x1, x2 ≥ 0 8 Use Two Phase Simplex method to Maximize Z = 5x1-4x2+3x3 subject to the constraints 2x1+x2-6x3 = 20, 6x1+5x2+10x3 ≤ 76, 8x1-3x2+6x3 ≤ 50, x1, x2, x3 ≥ 0 9. Use Two Phase Simplex Method to Maximize Z = -4x1-3x2-9x3 . Subject to the constraints 2x1+4x2+6x3 ≥ 15, 6x1+x2+6x3 ≥ 12, x1, x2, x3 ≥ 0 10. Write the dual of the following primal LP problem. Max Z = x1+2x2+x3 Subject to 2x1+x2 –x3 ≤ 2 -2x1 + x2 -5x3 ≥ -6 4x1 + x2+x3 ≤ 6 x1, x2, x3 ≥ 0 11. Obtain an initial basic feasible solution to the following TP using Matrix minima method
12. Obtain an initial basic feasible solution to the following TP using Matrix minima method
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Thursday, March 31, 2011
Optimization Theory (Question Bank)
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