Department of science and humanities department of mathematics part-a questions and answers



Download 274.02 Kb.
Date11.10.2016
Size274.02 Kb.
#9
SNS COLLEGE OF ENGINEERING, COIMBATORE-107

DEPARTMENT OF SCIENCE AND HUMANITIES

DEPARTMENT OF MATHEMATICS

PART-A – QUESTIONS AND ANSWERS
UNIT-I
1. What is operations research?

Operations research is a study of optimization techniques. It is applied decision theory. OR is the application of scientific methods, techniques and tools to problems involving the operations of systems so as to provide these in control of operations with optimum solutions to the problem.
2. List some applications of OR.

  • Optimal assignment of various jobs to different machines and different operators.

  • To find the waiting time and number of customers waiting in the queue and system in queuing model

  • To find the mimimum transportation cost after allocating goods from different origins to various destinations in transportation model

  • Decision theory problems in marketing,finance and production planning and control.


3. What are the various types of models in OR?

  • Models by function

                        i) Descriptive model    ii) Predictive model iii) Normative model

  • Models by structure

                        i) Iconic model ii) Analogue model iii) Mathematical model

  • Models by nature of environment

                        i) Deterministic model ii) Probabilistic model
4. What are main characteristics of OR?

  • Examination of functional relationship from a system overview.

  • Utilization of planned approach

  • Adaptation of planned approach

  • Uncovering of new problems for study


5. Name some characteristics of good model.

  • The number of assumptions made should be as few as possible

  • It should be easy as possible to solve the problem

  • The number of variables used should be as few as possible.

  • It should be more flexible to update the changes over a period of time without change in its framework.




6. What are the different phases of OR?

  • Formulation of the problem

  • Construction of mathematical modeling

  • Deriving the solution from the model

  • Validity of the model

  • Establishing the control over the solution

  • Implementation of the final solution.


7. List out the advantages of OR?

  • Optimum use of managers production factors

  • Improved quality of decision

  • Preparation of future managers by improving their knowledge and skill

  • Modification of mathematical solution before its use.


8. What are the limitations of OR?

  • Mathematical model do not take into account the intangible factors such as human relations etc. can not be quantified.

  • Mathematical models are applicable to only specific categories of problems.

  • Requires huge calculations. All these calculations cannot be handled manually and require computers which bear heavy cost.


9. What is linear programming?

Linear programming is a technique used for determining optimum utilization of limited resources to meet out the given objectives. The objective is to maximize the profit or minimize the resources (men, machine, materials and money)
10. Write the general mathematical formulation of LPP.

1. Objective function

Max or Min Z = C1x1 + C2x2+ …..+ Cnxn

2. Subject to the constraints

                        a11x1+a12x2+…………+ a1nxn (≤=≥)b1



a21x1+a22x2+…………+ a2nxn (≤=≥)b2

…………………………………………………………..

…………………………………………………………..

am1x1+am2x2+…………+ amnxn (≤=≥)bm

                3. Non-negative constraints

                        x1,x2,….xm≥ 0


11. What are the characteristic of LPP?

  • There must be a well defined objective function.

  • There must be alternative course of action to choose.

  • Both the objective functions and the constraints must be linear equation or inequalities.


12. What are the characteristic of standard form of LPP?

  • The objective function is of maximization type.

  • All the constraint equation must be of equal type by adding slack or surplus variables

  • RHS of the constraint equation must be positive type

  • All the decision variables are of positive type


13. What are the characteristics of canonical form of LPP? (NOV ’07)

            In canonical form, if the objective function is of maximization type, then all constraints are of ≤ type. Similarly if the objective function is of minimization type, then all constraints are of ≥ type. But non-negative constraints are ≥type for both cases.


14. A firm manufactures two types of products A and B and sells them at profit of Rs 2 on type A and Rs 3 on type B. Each product is processed on two machines M1 and M2.Type A requires 1 minute of processing time on M1 and 2 minutes on M2 Type B requires 1 minute of processing time on M1 and 1 minute on M2. Machine M1 is available for not more than 6 hours 40 minutes while machine M2 is available for 10 hours during any working day. Formulate the problem as a LPP so as to maximize the profit. (MAY ’07)

Maximize z =2x1 +3x2

Subject tot the constraints:

x1 + x≤ 400

2x1 + x2  ≤ 600

x1 ,x2≥ 0
15. A company sells two different products A and B , making a profit of Rs.40 and Rs. 30 per unit on them,respectively.They are produced in a common production process and are sold in two different markets, the production process has a total capacity of 30,000 man-hours. It takes three hours to produce a unit of A and one hour to produce a unit of B. The market has been surveyed and company official feel that the maximum number of units of A that can be sold is 8,000 units and that of B is 12,000 units. Subject to these limitations, products can be sold in any combination. Formulate the problem as a LPP so as to maximize the profit

Maximize z =40x1 +30x2

Subject tot the constraints:

3x1 + x≤ 30,000

         x1  ≤ 8000

         x  ≤ 12000

         x1 ,x2≥ 0


16. What is feasibility region? (MAY ’08)

            Collections of all feasible solutions are called a feasible set or region of an optimization model. Or A region in which all the constraints are satisfied is called feasible region.


17. What is feasibility region in an LP problem? Is ti necessary that it should always be a convex set?

A region in which all the constraints are satisfied is called feasible region. The feasible region of an LPP is always convex set.
18. Define solution

A set of variables x1,x2….xn which satisfies the constraints of LPP is called a solution.
19. Define feasible solution? (MAY ’07)

Any solution to a LPP which satisfies the non negativity  restrictions of  LPP’s called the feasible solution
20. Define optimal solution of LPP. (MAY ’09)

Any feasible solution which optimizes the objective function of the LPP’s called the optimal solution

21. State the applications of linear programming

  • Work scheduling

  • Production planning & production process

  • Capital budgeting

  • Financial planning

  • Blending

  • Farm planning

  • Distribution

  • Multi-period decision problem

                        Inventory model

                        Financial model

                        Work scheduling
22. State the Limitations of LP.


  • LP treats all functional relations as linear

  • LP does not take into account the effect of time and uncertainty

  • No guarantee for integer solution. Rounding off may not feasible or optimal solution.

  • Deals with single objective, while in real life the situation may be difficult.


23. What do you understand by redundant constraints?

 In a given LPP any constraint does not affect the feasible region or solution space then the constraint is said to be a redundant constraint.


24. Define Unbounded solution?

If the feasible solution region does not have a bounded area the maximum value of Z occurs at infinity. Hence the LPP is said to have unbounded solution.
25. Define Multiple Optimal solution?

A LPP having more than one optimal solution is said to have alternative or multiple optimal solutions.
26. What is slack variable?

If the constraint as general LPP be <= type then a non negative variable is introduced to convert the inequalities into equalities are called slack variables. The values of these variables are interpretedas the amount of unused resources.
27. What are surplus variables?

If the constraint as general LPP be >= type then a non negative

    is introduced to convert the inequalities into equalities are called the surplus variables.


28. Define Basic solution?

Given a system of m linear equations with n variables(m
29. Define non Degenerate Basic feasible solution?

The basic solution is said to be a non degenerate basic solution  if None of the basic variables is zero.
30. Define degenerate basic solution?

A basic solution is said to be a degenerate basic solution if one or  more of the basic variables are zero.
31. What is the function of minimum ratio?

  • To determine the basic variable to leave

  • To determine the maximum increase in basic variable

  • To maintain the feasibility of following solution


32. From the optimum simplex table how do you identify that LPP has unbounded solution?

To find the leaving variables the ratio is computed. The ratio is <=0                                                                                then there is an unbounded solution to the given LPP.
33. From the optimum simplex table how do you identify that the LPP has no      solution?

If atleast one artificial variable appears in the basis at zero level with a +ve value in the Xb column and the optimality condition is satisfied

then the original problem has no feasible solution.
34. How do you identify that LPP has no solution in a two phase method?

If all Zj – Cj ≤ 0 & then atleast one artificial variable appears in the optimum basis at non zero level the LPP does not possess any solution.
35. What do you understand by degeneracy?

The concept of obtaining a degenerate basic feasible solution in LPP is known as degeneracy. This may occur in the initial stage when atleast one basic variable is zero in the initial basic feasible solution.
36. Write the standard form of LPP in the matrix notation?

In matrix notation the canonical form of LPP can be expressed as

                         Maximize Z = CX(obj fn.)

                         Sub to AX <= b(constraints) and X >= 0 (non negative restrictions)

                         Where C = (C1,C2,…..Cn),

                       

                        A =     a11   a12 ….. a1n                    X =  x1                      b =  b1

                                   a21   a22…..  a2n            ,                x2           ,                 b2

                                    .                                                        .                                .

                                    .                                                        .                                .

                                    am1  am2…. amn                            xn                             bn


37. Define basic variable and non-basic variable in linear programming.

            A basic solution to the set of constraints is a solution obtained by setting any n variables equal to zero and solving for remaining m variables not equal to zero. Such m variables are called basic variables and remaining n zero variables are called non-basic variables.


38.Solve the following LP problem by graphical method. (MAY ’08)

Maximize z =6x1 +4xSubject tot the constraints:

x1 + x≤ 5

x2≥ 8

x1 ,x2≥ 0
39. Define unrestricted variable and artificial variable. (NOV ’07)

  • Unrestricted Variable :A variable is unrestricted if it is allowed to take on positive, negative or zero values

  • Artificial variable :One type of variable introduced in a linear program model in order to find an initial basic feasible solution; an artificial variable is used for equality constraints and for greater-than or equal inequality constraints


UNIT-II
1. Define transportation problem.

            It is a special type of linear programming model in which the goods are shipped from various origins to different destinations. The objective is to find the best possible allocation of goods from various origins to different destinations such that the total transportation cost is minimum.


3. Define the following: Feasible solution

            A set of non-negative decision values xij (i=1,2,….m; j=1,2…n) satisfies the constraint equations is called a feasible solution.


4. Define the following:  basic feasible solution

            A basic feasible solution is said to be basic if the number of positive allocations are m+n-1.( m-origin and n-destination).If the number of allocations are less than (m+n-1)  it is called degenerate basic feasible solution.


5. Define optimal solution in transportation problem

A feasible solution is said to be optimal, if it minimizes the total transportation cost.
6. What are the methods used in transportation problem to obtain the initial basic feasible solution.

  • North-west corner rule

  • Lowest cost entry method or matrix minima method

  • Vogel’s approximation method


7. Write down the basic steps involved in solving a transportation problem.

  • To find the initial basic feasible solution

  • To find an optimal solution by making successive improvements from the initial basic feasible solution.


8., What do you understand by degeneracy in a transportation problem? (NOV ’07)

If the number of occupied cells in a m x n transportation problem is less than

( m+n-1) then the problem is said to be degenerate.
9.  What is balanced transportation problem& unbalanced transportation problem?

When the sum of supply is equal to demands, then the problem is said to be balanced transportation problem.

A transportation problem is said to be unbalanced if the total supply is not equal to the total demand.
10. How do you convert an unbalanced transportation problem into a balanced one?

The unbalanced transportation problem is converted into a balanced one by adding a dummy row (source) or dummy column (destination) whichever is necessary. The unit transportation cost of the dummy row/ column elements are assigned to zero. Then the problem is solved by the usual procedure.
11. Explain how the profit maximization transportation problem can be converted to an equivalent cost minimization transportation problem. (MAY ’08)

            If the objective is to maximize the profit or maximize the expected sales we have to convert these problems by multiplying all cell entries by -1.Now the maximization problem becomes a minimization and it can be solved by the usual algorithm


12. Determine basic feasible solution to the following transportation problem using least cost method. (MAY ’09)

                                    A         B         C         D         SUPPLY

            P                      1          2          1           4          30

            Q                     3          3          2          1           50

            R                     4          2          5          9          20

            Demand         20        40        30        10


13. Define transshipment problems?

A problem in which available commodity frequently moves from one source to another source or destination before reaching its actual destination is called transshipment problems.
14.  What is the difference between Transportation problem & Transshipment Problem?

In a transportation problem there are no intermediate shipping points while in transshipment problem there are intermediate shipping points
15. What is assignment problem?

An assignment problem is a particular case of a transportation problem in which a number of operations are assigned to an equal number of operators where each operator performs only one operation, the overall objective is to maximize the total profit or minimize the overall cost of  the given assignment.

             



16. Explain the difference between transportation and assignment problems?

                      



Transportation problems                        Assignment problems
1)        supply at any source may be a                    Supply at any source will 

any positive quantity.                                  be 1.
2)        Demand at any destination may                 Demand at any destination

be a positive quantity.                                  will be 1.
3)        One or more source to any number           One source one destination. 

        of destination.


17. Define unbounded assignment problem and describe the steps involved in solving it?

If the no. of rows is not equal to the no. of column in the given cost matrix the problem is said to be unbalanced. It is converted to a balanced one by adding dummy row or dummy column with zero cost.

        


18. Explain how a maximization problem is solved using assignment model?

The maximization problems are converted to a minimization one of the following method.

(i)                 Since max z = min(-z)

(ii)               Subtract all the cost elements all of the cost matrix from the

Highest cost element in that cost matrix.
19. What do you understand by restricted assignment? Explain how you should

       overcome it?



The assignment technique, it may not be possible to assign a particular task to a particular facility due to technical difficulties or other restrictions. This can be overcome by assigning a very high processing time or cost (it can be ∞) to the corresponding cell.
20. How do you identify alternative solution in assignment problem?

Sometimes a final cost matrix contains more than required number of zeroes at the independent position. This implies that there is more than one optimal solution with some optimum assignment cost.
21. What is a traveling salesman problem?

A salesman normally must visit a number of cities starting from his head quarters. The distance between every pair of cities are assumed to be known. The problem of finding the shortest distance if the salesman starts from his head quarters and passes through each city exactly once and returns to the headquarters is called Traveling Salesman problem.
22. Define route condition?

The salesman starts from his headquarters and passes through each city exactly once.
23. Give the areas of operations of assignment problems?

Assigning jobs to machines.

Allocating men to jobs/machines.

Route scheduling for a traveling salesman.
24. How do you convert the unbalanced assignment problem into a balanced one? (MAY ’08)

Since the assignment is one to one basis , the problem have a square matrix. If the given problem is not square matrix add a dummy row or dummy column and then convert it into a balanced one (square matrix). Assign zero cost values for any dummy row/column and solve it by usual assignment method.

  

UNIT-III


 1. Define Integer Programming Problem (IPP)? (DEC ’07)

A linear programming problem in which some or all of the variables in the optimal solution are restricted to assume non-negative integer values is called an Integer Programming Problem (IPP) or Integer Linear Programming
2. Explain the importance of Integer programming problem?

            In LPP the values for the variables are real in the optimal solution. However in certain problems this assumption is unrealistic. For example if a problem has a solution of 81/2 cars to be produced in a manufacturing company is meaningless. These types of problems require integer values for the decision variables. Therefore IPP is necessary to round off the fractional values.


3. List out some of the applications of IPP? (MAY ’09) (DEC ’07) (MAY ’07)

  • IPP occur quite frequently in business and industry.

  • All transportation, assignment and traveling salesman problems are IPP, since the decision variables are either Zero or one.

  • All sequencing and routing decisions are IPP as it requires the integer values of the decision variables.

  • Capital budgeting and production scheduling problem are PP. In fact, any situation involving decisions of the type either to do a job or not to do can be treated as an IPP.

  • All allocation problems involving the allocation of goods, men, machines, give rise to IPP since such commodities can be assigned only integer and not fractional values.


4. List the various types of integer programming? (MAY ’07)

            Mixed IPP

            Pure IPP
5. What is pure IPP?

In a linear programming problem, if all the variables in the optimal solution are restricted to assume non-negative integer values, then it is called the pure (all) IPP.
6. What is Mixed IPP?

In a linear programming problem, if only some of the variables in the optimal solution are restricted to assume non-negative integer values, while the remaining variables are free to take any non-negative values, then it is called A Mixed IPP.
7. What is Zero-one problem?

If all the variables in the optimum solution are allowed to take values either 0 or 1 as in ‘do’ or ‘not to do’ type decisions, then the problem is called  Zero-one problem or standard discrete programming problem.
8.  What is the difference between Pure integer programming & mixed integer integer programming.

When an optimization problem, if all the decision variables are restricted to take integer values, then it is referred as pure integer programming. If some of the variables are allowed to take integer values, then it is referred as mixed integer integer programming.
9. Explain the importance of Integer Programming?

In linear programming problem, all the decision variables allowed to take any non-negative real values, as it is quite possible and appropriate to have fractional values in many situations. However in many situations, especially in business and industry, these decision variables make sense only if they have integer values in the optimal solution. Hence a new procedure has been developed in this direction for the case of LPP subjected to additional restriction that the decision variables must have integer values.
10. Why not round off the optimum values in stead of resorting to IP? (MAY ’08)

There is no guarantee that the integer valued solution (obtained by simplex method) will satisfy the constraints. i.e. ., it may not satisfy one or more constraints and as such the new solution may not feasible. So there is a need for developing a systematic and efficient algorithm for obtaining the exact optimum integer solution to an IPP.
11. What are methods for IPP? (MAY ’08)

Integer programming can be categorized as

(i) Cutting methods

(ii) Search Methods.
12. What is cutting method?

            A systematic procedure for solving pure IPP was first developed by R.E.Gomory in 1958. Later on, he extended the procedure to solve mixed IPP, named as cutting plane algorithm, the method consists in first solving the IPP as ordinary LPP.By ignoring the integrity restriction and then introducing additional constraints one after the other to cut certain part of the solution space until an integral solution is obtained.


13. What is search method?

It is an enumeration method in which all feasible integer points are enumerated. The widely used search method is the Branch and Bound Technique. It also starts with the continuous optimum, but systematically partitions the solution space into sub problems that eliminate parts that contain no feasible integer solution. It was originally developed by A.H.Land and A.G.Doig.
14. Explain the concept of Branch and Bound Technique?

The widely used search method is the Branch and Bound Technique. It  starts with the continuous optimum, but systematically partitions the solution space into sub problems that eliminate parts that contain no feasible integer solution. It was originally developed by A.H.Land and A.G.Doig.
15. Give the general format of IPP?

The general IPP is given by

Maximize Z = CX

Subject to the constraints

AX   ≤ b,

X   ≥ 0     and some or all variables are integer.
16. Write an algorithm for Gomory’s Fractional Cut algorithm?

1. Convert the minimization IPP into an equivalent maximization IPP and all the

     coefficients and constraints should be integers.



2. Find the optimum solution of the resulting maximization LPP by using simplex

    method.



3. Test the integrity of the optimum solution.

4. Rewrite each XBi

5. Express each of the negative fractions if any, in the kth row of the optimum simplex

     table as the sum of a negative integer and a non-negative fraction.



6. Find the fractional cut constraint

7. Add the fractional cut constraint at the bottom of optimum simplex table obtained in

     step 2.



8. Go to step 3 and repeat the procedure until an optimum integer solution is obtained.
17. What is the purpose of Fractional cut constraints?

In the cutting plane method, the fractional cut constraints cut the unuseful area of the feasible region in the graphical solution of the problem. i.e. cut that area which has no integer-valued feasible solution. Thus these constraints eliminate all the non-integral solutions without loosing any integer-valued solution.
18.A manufacturer of baby dolls makes two types of dolls, doll X and doll Y. Processing of these dolls is done on two machines A and B. Doll X requires 2 hours on machine A and 6 hours on Machine B. Doll Y requires 5 hours on machine A and 5 hours on Machine B. There are 16 hours of time per day available on machine A and 30 hours on machine B. The profit is gained on both the dolls is same. Format this as IPP?

Let the manufacturer decide to manufacture x1 the number of doll X and x2 number of doll Y so as to maximize the profit. The complete formulation of the IPP is given by

Maximize         Z = x1+x2

Subject to        2 x1 + 5 x2 ≤16

6 x1+ 5 x2 ≤30

and ≥0 and are integers.
19. Explain Gomory’s Mixed Integer Method?

The problem is first solved by continuous LPP by ignoring the integrity condition. If the values of the integer constrained variables are integers, then the current solution is an optimal solution to the given mixed IPP. Else select the source row which corresponds to the largest fractional part among these basic variables which are constrained to be integers. Then construct the Gomarian constraint from the source row. Add this secondary constraint at the bottom of the optimum simplex table and use dual simplex method to obtain the new feasible optimal solution. Repeat this procedure until the values of the integer restricted variables are integers in the optimum solution obtained.
20. What is the geometrical meaning of portioned or branched the original problem?

Geometrically it means that the branching process eliminates portion of the feasible region that contains no feasible-integer solution. Each of the sub-problems solved separately as a LPP.
21. What is standard discrete programming problem?

If all the variables in the optimum solution are allowed to take values either 0 or 1 as in ‘do’ or ‘not to do’ type decisions, then the problem is called standard discrete programming problem.
22. What is the disadvantage of branched or portioned method?

It requires the optimum solution of each sub problem. In large problems this could be very tedious job.
23. How can you improve the efficiency of portioned method?

The computational efficiency of portioned method is increased by using the concept of bounding. By this concept whenever the continuous optimum solution of a sub problem yields a value of the objective function lower than that of the best available integer solution it is useless to explore the problem any further consideration. Thus once a feasible integer solution is obtained, its associative objective function can be taken as a lower bound to delete inferior sub-problems. Hence efficiency of a branch and bound method depends upon how soon the successive sub-problems are fathomed.
UNIT-IV
1. What do you mean by project?

A project is defined as a combination on inter related activities with limited resources namely men, machines materials, money and time all of which must be executed in a defined order for its completion.
2. What are the three main phases of project?

  • Planning,   Scheduling and Control


3. What are the two basic planning and controlling techniques in a network analysis?

  • Critical Path Method (CPM)

  • Programme Evaluation and Review Technique (PERT)


4. What are the advantages of CPM and PERT techniques?

  • It encourages a logical discipline in planning, scheduling and control of projects

  • It helps to effect considerable reduction of project times and the cost

  • It helps better utilization of resources like men,machines,materials and money with reference to time

  • It measures the effect of delays on the project and procedural changes on the overall schedule.

5. What is the difference CPM and PERT

CPM                                                                           

  • Network is built on the basis of activity

  • Deterministic nature

  • One time estimation

PERT

  • An event oriented network

  • Probabilistic nature

  • Three time estimation


6. What is network?

A network is a graphical representation of a project’s operation and is composed of all the events and activities in sequence along with their inter relationship and inter dependencies.
7. What is Event in a network diagram?

An event is specific instant of time which marks the starts and end of an activity. It neither consumes time nor resources. It is represented by a circle.
8. Define activity?

A project consists of a number of job operations which are called activities. It is the element of the project and it may be a process, material handling, procurement cycle etc.
9. Define Critical Activities?

In a Network diagram critical activities are those whose if consumer more than estimated time the project will be delayed.

    


10. Define non critical activities?

Activities which have a provision such that the event if they consume a specified time over and above the estimated time the project will not be delayed are termed as non critical activities.
11. Define Dummy Activities?

When two activities start at a same time, the head event are joined by a dotted arrow known as dummy activity which may be critical or non critical.
12. Define duration?

It is the estimated or the actual time required to complete a trade or an activity.
    

13. Define total project time?

It is time taken to complete to complete a project and just found from the sequence of critical activities. In other words it is the duration of the critical path.
14. Define Critical Path?

 It is the sequence of activities which decides the total project duration. It is formed by critical activities and consumes maximum resources and time.


15. Define float or slack? (MAY ’08)

Slack is with respect to an event and float is with respect to an activity. In other words, slack is used with PERT and float with CPM. Float or slack means extra time over and above its duration which a non-critical activity can consume without delaying the project.
16. Define total float? (MAY ’08)

The total float for an activity is given by the total time which is available for performance of the activity, minus the duration of the activity. The total time is available for execution of the activity is given by the latest finish time of an activity minus the earliest start time for the activity. Thus

                          Total float = Latest start time – earliest start time.




17. Define free float? (MAY ’08)

This is that part of the total float which does not affect the subsequent activities. This is the float which is obtained when all the activities are started at the earliest.
18. Define Independent float? (MAY ’07) (MAY ’08)

If all the preceding activities are completed at their latest, in some cases, no float available for the subsequent activities which may therefore become critical.

         Independent float = free – tail slack.


19. Define Interfering float?

Sometimes float of an activity if utilized wholly or in part, may influence the starting time of the succeeding activities is known as interfering float.

      Interfering float = latest event time of the head - earliest event time of                                                                                             the event.


20. Define Optimistic?

Optimistic time estimate is the duration of any activity when everything goes on very well during the project.

 

21. Define Pessimistic?



Pessimistic time estimate is the duration of any activity when almost everything goes against our will and a lot of difficulties is faced while doing a project.
22. Define most likely time estimation?

Most likely time estimate is the duration of any activity when sometimes thing go on very well, sometimes things go on very bad while doing the project.
24. What is a parallel critical path?

When critical activities are crashed and the duration is reduced other paths may also become critical such critical paths are called parallel critical path.
25. What is standard deviation and variance in PERT network? (NOV ’07)

The expected time of an activity in actual execution is not completely reliable and is likely to vary. If the variability is known we can measure the reliability of the expected time as determined from three estimates. The measure of the variability of possible activity time is given by standard deviation, their probability distribution

Variance of the activity is the square of the standard deviation
26. Give the difference between direct cost and indirect cost? (NOV ’07)

Direct cost is directly depending upon the amount of resources involved in the execution of all activities of the project. Increase in direct cost will decrease in project duration. Indirect cost is associated with general and administrative expenses, insurance cost, taxes etc. Increase in indirect cost will increase in project duration.
UNIT-V
1. Define Kendal’s notation for representing queuing models.

              A queuing model is specified and represented symbolically in the form (a/b/c) : (d/e)



Where a- inter arrival time

            b-service mechanism

            c-number of service

            d-the capacity of the system

            e-the queue discipline
2. In a super market, the average arrival rate of customer is 5 in every 30 minutes following Poisson process. The average time is taken by the cashier to list and calculate the customer’s purchase is 4.5 minutes; following exponential distribution. What is the probability that the queue length exceeds 5?

Arrival rate= 5/30 min

Service rate=2/9min

Probability that the queue length exceeds 5 = (ρ) n+2

                                                                           = (.75) 7=0.133


3. Explain Queue discipline and its various forms.

          (i)   FIFO or FCFS   -    First In First Out or First Come First Served.

          (ii)  LIFO or LCFS   -    Last In First Out or Last Come First Served.

          (iii) SIRO                  -    Selection for service in random order.

                      (iv)  PIR                    -     Priority in selection
4. Distinguish between transient and steady state queuing system.

A system is said to be in transient state when its operating characteristics are dependent on time. A steady state system is one in which the behavior of the system is independent of time.
5. Define steady state?

A system is said to be in steady state when the behavior of the system independent of time. Let pn(t) denote the prob that there are ‘n’ units in the   system at time t. then in steady state=> lim pn'( t )=0

                                    t→∞



6. Write down the little formula?

 Ls=Lq+λ/µ

                  Where Ls= the average no. of customers in the system

                              Lq= the average no. of customers in the queue


7. If traffic intensity of M/M/I system is given to be 0.76, what percent of time the system would be idle?

Traffic intensity = 0.76 (busy time)

System to be idle = 1-0.76 =0.24
8. What are the basic elements of queuing system?

            System consists of the arrival of customers, waiting in queue, pick up for service according to certain discipline, actual service and departure of customer.


9. What is meant by queue discipline?

           The manner in which service is provided or a customer is selected for service is defined as the queue discipline.


10. What are the classifications of queuing models?

 m | m | I |∞         m | m | I |n                    m | m | c|∞               m | m | c |n


11. What are the characteristic of queuing process?

                Arrival pattern of customers, service pattern of servers, queue discipline, system capacity, no. of service channels, no. of service stage.


12. Define Poisson process?

The Poisson process is a continuous parameter discrete state process (ie) a good model for many practical situations. if X(t)represents the no. of  Occurrences of a certain in (0, t) then the discrete random process {X (t)} is called the Poisson process. if it satisfies the following postulates
                                     I.       P[1 occurrence in (t,t+Δt)] =λΔt + O(Δt)

                                  II.      P[0 occurrence in (t,t+Δt)] =1-λΔt + O(Δt)

                               III.      P[2 or more  occurrence in (t,t+Δt)] =O(Δt)

                                IV.      X(t) is independent of the number of occurrences of the event in any interval prior (or) after the interval(0,t)

                                   V.      The prob that the event occurs a specified number of times in (t 0, t 0+t) depends only on t but not on t 0.
13. Given any two examples of Poisson process?

1. The number of incoming telephone calls received in a particular time

2. The arrival of customer at a bank in a day
14. What are the properties of Poisson process?

1.      The Poisson process is a markov process.

2.      Sum of two independent poissen processes is a poisson process.

3.      Difference of two independent poisson processes is not poisson process.

4.      The inter arrival time of a poisson process has an exponential distribution with mean 1/λ.
15. Customer arrives at a one-man barber shop according to a Poisson process with an mean inter arrival time of 12 minutes. Customers spend a average of 10 minutes in  the barber’s chain.What is the expected no of customers in the barber shop and in the queue?

                  Given mean arrival rate 1/λ = 12.

                  Therefore  λ = 1/12 per minute.

                  Mean service rate 1/µ = 10.

                  Therefore µ = 1/10 per minute.

                  Expected number of customers in the system 

                             L= λ/µ-λ

                                 = 1/12/1/10-1/12 = 5 customers.

                                  

16. Define pure birth process?

            If the death rates µk = 0 for all k = 1, 2…… we have a pure birth process.


17. Write down the postulates of birth and death process?      

                   1) p [1 birth (t, t + Δt)] =  λn(t)Δt + 0(Δt)

       2) p [0 birth in (t, t + Δt)] = 1 -  λn(t)Δt + 0(Δt).

       3) p [1 death in (t, t +  Δt)] = µn(t)Δt + 0(Δt)

       4) p [0 death in (t, t + Δt)] = 1 - µn(t)Δt + 0(Δt).
18. What is the formula for the problem for a customer to wait in the queue under

      (m/m/1 N/FCFS)

           W= Ls/λ.
19. What is the average number of customers in the system under

      (m/m/e: ∞/FCFS)?

            λµ (λ/µ) /  (c-1)!(cµ - λ )2     +  λ/µ.

20. What is the difference between probabilistic deterministic and mixed models?

Probabilistic: When there is uncertainty in both arrivals rate and service rate are

           assumed to be random variables.



Deterministic: Both arrival rate and service rate are constants.

Mixed: When either the arrival rate or the service rate is exactly known and the other is not known.
21. What are the assumptions in m/m/1 model?

      (i)         Exponential distribution of inter arrival times or poisson distribution

                  of arrival rate.

      (ii)       Queue discipline is first come, first serve.



(iii)             Single waiting line with no restriction no length of queue.

(iv)             Single server with exponential distribution of service times.
22. People arrive at a theatre ticket booth in poisson distributed arrival rate of 25/hour. Service time is constant at 2 minutes.  Calculate the mean?

            λ = 25/hr             µ = (½)60 = 30 per hour.

            ρ = λ/µ = 25/30 = 5/6 = 0.833

       Lq = ρ2  /  1-ρ   =   (.833)2 / 1 - .833    =   4.15502



      Mean waiting time=Lq/λ = 4/25 = 4/25 * 60 = 9.6 minutes.

Download 274.02 Kb.

Share with your friends:




The database is protected by copyright ©ru.originaldll.com 2024
send message

    Main page