Consider the following transportation problem Destination Availability D1 D2 D3 D4 O1 5 8 3 6 30 O2 4 5 7 4 50 O3 6 2 4 6 20 Requirement 30 40 20 10 Determine an initial basic feasible solution using - Business Mathematics and Statistics

Consider the following transportation problem Destination Availability D1 D2 D3 D4 O1 5 8 3 6 30 O2 4 5 7 4 50 O3 6 2 4 6 20 Requirement 30 40 20 10 Determine an initial basic feasible solution using - Business Mathematics and Statistics

Consider the following transportation problem Destination Availability D1 D2 D3 D4 O1 5 8 3 6 30 O2 4 5 7 4 50 O3 6 2 4 6 20 Requirement 30 40 20 10 Determine an initial basic feasible solution using - Business Mathematics and Statistics

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Consider the following transportation problem

	Destination				Availability
	D₁	D₂	D₃	D₄
O₁	5	8	3	6	30
O₂	4	5	7	4	50
O₃	6	2	4	6	20
Requirement	30	40	20	10

Determine an initial basic feasible solution using Vogel’s approximation method

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योग

Let ‘a_i‘ denote the availability and ‘b_j‘ denote the requirement.

Then, `sum"a"_"i"` = 30 + 50 + 20 = 100 and `sum"b"_"j"` = 30 + 40 + 20 + 10 = 100

Since `sum"a"_"i" = sum"b"_"j"`.

The given problem is a balanced transportation problem and we can get an initial basic feasible solution.

Vogel’s approximation method:

First allocation:

	D₁	D₂	D₃	D₄	(a_i)	penalty
O₁	5	8	3	6	30	(2)
O₂	4	5	7	4	50	(1)
O₃	6	⁽²⁰⁾2	4	6	20/0	(2)
(b_j)	30	40/20	20	10
penalty	(1)	(3)	(1)	(2)

The largest penalty = 3.

So allocate 20 units to the cell (O₃, D₂) which has the least cost in column D₂

Second allocation:

	D₁	D₂	D₃	D₄	(a_i)	penalty
O₁	5	8	⁽²⁰⁾3	6	30/10	(2)
O₂	4	5	7	4	50	(1)
(b_j)	30	20	20/0	10
penalty	(1)	(3)	(4)	(2)

Largest penalty = 4

So allocate min (20, 30) units to the cell (O₁, D₃) which has the least cost in column D₃

Third allocation:

	D₁	D₂	D₄	(a_i)	penalty
O₁	5	8	6	10	(1)
O₂	4	⁽²⁰⁾5	4	50/30	(1)
(b_j)	30	20/10	10
penalty	(1)	(3)	(2)

The largest penalty is 3.

So allocate min (20, 50) to the cell (O₂, D₂) which has the least cost in column D₂.

Fourth allocation:

	D₁	D₄	(a_i)	penalty
O₁	5	6	10	(1)
O₂	4	⁽¹⁰⁾4	30/20	(0)
(b_j)	30	10/0
penalty	(1)	(2)

Largest penalty = 2.

So allocate min (10, 30) to cell (O₂, D₄) which has the least cost in column D₄

Fifth allocation:

	D₁	(a_i)	penalty
O₁	⁽¹⁰⁾5	10/0	–
O₂	⁽²⁰⁾4	20/0	–
(b_j)	30/10/0
penalty	(1)

Largest penalty = 1.

Allocate min (30, 20) to cell (O₂, D₁) which has the least cost in column D₁.

Finally allot the balance 10 units to cell (O₁, D₁)

We get the final allocation table as follows.

	D₁	D₂	D₃	D₄	Availability
O₁	⁽¹⁰⁾5	8	⁽²⁰⁾3	6	30
O₂	⁽²⁰⁾4	⁽²⁰⁾5	7	⁽¹⁰⁾4	50
O₃	6	⁽²⁰⁾2	4	6	20
Requirement	30	40	20	10

Transportation schedule:

O₁ → D₁

O₁ → D₃

O₂ → D₁

O₂ → D₂

O₂ → D₄

O₃ → D₂

i.e x₁₁ = 10

x₁₃ = 20

x₂₁ = 20

x₂₂ = 20

x₂₄ = 10

x₃₂ = 20

Total cost is given by = (10 × 5) + (20 × 3) + (20 × 4) + (20 × 5) + (10 × 4) + (20 × 2)

= 50 + 60 + 80+ 100 + 40 + 40

= 370
Hence the minimum cost by YAM is ₹ 370.

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Transportation Problem

क्या इस प्रश्न या उत्तर में कोई त्रुटि है?

Q 2. (b)Q 2. (a)Q 3. (i)

अध्याय 10: Operations Research - Miscellaneous problems [पृष्ठ २६२]

सामाचीर कलवी Business Mathematics and Statistics [English] Class 12 TN Board

अध्याय 10 Operations Research
Miscellaneous problems | Q 2. (b) | पृष्ठ २६२

Write mathematical form of transportation problem

What is feasible solution and non degenerate solution in transportation problem?

Obtain an initial basic feasible solution to the following transportation problem by using least-cost method.

	D₁	D₂	D₃	Supply
O₁	9	8	5	25
O₂	6	8	4	35
O₃	7	6	9	40
Demand	30	25	45

Explain Vogel’s approximation method by obtaining initial feasible solution of the following transportation problem.

	D₁	D₂	D₃	D₄	Supply
O₁	2	3	11	7	6
O₂	1	0	6	1	1
O₃	5	8	15	9	10
Demand	7	5	3	2

Determine basic feasible solution to the following transportation problem using North west Corner rule.

		Sinks
		A	B	C	D	E	Supply
	P	2	11	10	3	7	4
Origins	Q	1	4	7	2	1	8
	R	3	9	4	8	12	9
Demand		3	3	4	5	6

Find the initial basic feasible solution of the following transportation problem:

	I	II	III	Demand
A	1	2	6	7
B	0	4	2	12
C	3	1	5	11
Supply	10	10	10

Using Least Cost method

Choose the correct alternative:

In a non – degenerate solution number of allocation is

Determine an initial basic feasible solution to the following transportation problem by using north west corner rule

		Destination			Supply
		D₁	D₂	D₃
	S₁	9	8	5	25
Source	S₂	6	8	4	35
	S₃	7	6	9	40
	Requirement	30	25	45

Determine an initial basic feasible solution to the following transportation problem by using least cost method

		Destination			Supply
		D₁	D₂	D₃
	S₁	9	8	5	25
Source	S₂	6	8	4	35
	S₃	7	6	9	40
	Requirement	30	25	45

Explain Vogel’s approximation method by obtaining initial basic feasible solution of the following transportation problem.

Destination