LOYOLA COLLEGE (AUTONOMOUS), CHENNAI-600 034.
M.Sc. DEGREE EXAMINATION – STATISTICS
FourTh SEMESTER – APRIL 2003
ST 4951/ S 1052 advanced operations reSEaRCH
26.04.2003
1.00 – 4.00 Max: 100 Marks
SECTION – A (10 ´ 2 = 20 Marks)
Answer ALL the questions.
- State the Bellman’s principle of optimality.
- Define a general non-linear programming problem.
- What is posynomial and where it is used?
- Define the mathematical formulation of an quadratic programming problem.
- Define separable programming problem with an example.
- Convert the chance constraint into equivalent deterministic constraint for the following problem.
Min Z = 3x1+ 4x2
St Pr (3x1-2x2 £ b1) ³
x1, x2 ³ 0, where b1, b2, b3 are independent random variables uniformly distributed
in the intervals (-2,2), (0,2) and (0,4) respectively.
- Explain the concept of integer programming problem.
- Explain the mathematical model of a stochastic linear program.
- Explain a scenario where the goal programming concepts are applied.
- State the Kuhn-Tucker conditions to solve an NLPP program.
SECTION – B (5 ´ 8 = 40 Marks)
Answer any FIVE questions
- Explain Wolfe’s Algorithm in solving a non linear programming problem.
- Solve the following geometric programming problem
- Explain clearly the piece wise linear approximation.
- Solve the following Integer programming problem
Max Z = x1+ x2
s.t 3x1+ 2x2 £ 5
x2 £ 2
x1, x2 ³ 0 and integers.
- Derive the Gomary’s constraint in solving an integer programming problem
- Solve the non linear programming problem using Lagrangian multipliers.
Maximize
s.t x1+ x2 + x3 =15
2x1 -x2 +2x3 = 20
x1, x2, x3 ³ 0
- Explain the concepts in solving the stochastic programming problem for
the following scenario assuming the usual notations
(i) Aircraft Allocation problem (ii) Two stage programming
- Solve the following cargo loading problem assuming the usual notations when
there is no volume restriction (i.e., Q = ¥) , W = 5 and N = 3 with the
numerical data given below
item (n) | Weight (Wn) | Value (Vn) |
1 | 2 | 7 |
2 | 3 | 10 |
3 | 1 | 3 |
SECTION – C (2 ´ 20 = 40 Marks)
Answer any TWO questions.
- Explain Beale’s Algorithm in solving a non linear programming problem.
- Solve the following non linear programming problem using Beale’s Algorithm
s.t x1 +2x2 £ 10
x1 + x2 £ 9
x1 ,x2 ³ 0
- a) Explain Branch and Bound Technique in solving an Integer programming
problem
- Derive the geometric -arithmetic mean inequality in solving a geometric
programming problem
21 a) Explain the dynamic programming problem concepts in solving the Cargo
loading problem, assuming the usual notations.
- Solve the following linear programming problem through Dynamic programming problem
Max Z = 3x1 + 4x2
s.t 2x1 + x2 £ 40
2x1 + 5x2 £ 180
x1, x2 ³ 0
- a) Approximate the following NLPP to LPP using separable convex
programming and piece wise linear combination concepts
Max f(x) = 3x1 + 2x2
- Explain the scenario of n component system in series in Reliability and
provide a solution to solve using a Dynamic programming problem.
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