A STUDY OF MATHEMATICAL METHOD OF TRANSPORTATION PROBLEM.pptx
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This document discusses different mathematical methods to solve a transportation problem of optimizing the cost of transporting raw materials for a company based in Bareilly, India. It examines the transportation problem using the North-West Corner Method, Least Cost Method, and Vogel's Approximation Method. Vogel's Approximation Method provided the lowest total transportation cost of Rs. 35598. The study concludes that Vogel's Approximation Method provides the most reasonable cost allocation plan for acquiring raw materials for the plant.
A STUDY OF MATHEMATICAL METHOD OF TRANSPORTATION PROBLEM.pptx
- 1. A STUDY OF MATHEMATICAL METHOD OF TRANSPORTATION PROBLEM BASED ON RAW MATERIAL Shivang Ranjan Guide Name M.Sc. (Mathematics) Ms. Anshika Agarwal Roll No. 1620808017 Assistant Professor 1
- 2. Content Introduction. Objective. Methodology. Calculation of Transportation Cost . North-West corner method (NWCM) Least Cost Method. Vogel’s Approximation Method. Conclusions. 2
- 3. Introduction A transportation problem basically deals with the problem which aims to find the best way to fulfill the demand and supply. While trying to find the best way, generally a variable cost of shipping the product from one supply point to a demand point or a similar constraint should be taken into consideration. Here under this study main problem to the company is that the company is not able to fulfill 100% demand of the orders that is a common problem in different sectors, and we will try to know all those factors which are involved to lateness of the orders, like cost, shortage of raw material, production and final product orders. 3
- 4. The task is to evaluate production schedule, for this we need to evaluate orders with respect of raw material and final delivery. According to initial information the mill has 55 to 60 tons production per day while the orders per day are 72 tons. It is may be difficult to equalize the demand and production but we can try to minimize this gap between production and delivery orders. Coordination between production and transportation of raw material and distribution planning has received increased attention in global companies. To minimize the total cost, manufacturing firms should integrate their production and logistics decisions, especially when considering the rising costs of transportation and distribution of finished products. 4
- 5. There are many problems in the literature have dealt with a single commodities and products. Here in the study we use linear programming model for a multi-type of waste paper used for paper production and raw material problem to minimize the total transportation cost. In their formulation, which include different raw material categories, and potential warehouses that receive the raw material from several places. While studying, the problem is formulated with several decision variables and their values and used different transportation methods to solve the problem. 5
- 6. Objective The objective of this part of study is to minimize the cost of raw material for the company, and make sure the availability of raw material at optimized cost. The optimum sequence of work orders is first of all sought and reliability is also checked with different alternatives of sources. Finding best sequence of orders is a difficult task and has a strong relationship with reliability of the production system as optimum sequence or orders with better work content make a better flow of the production system. Here in the study we will also check the alternative costs and opportunity costs while finding the optimize solution of this problem, using the method of multipliers and its sensitivity analysis. 6
- 7. What is transportation ? Transportation is the movement of people and goods from one place to another. The term is derived from the Latin trans ("across") and portare ("to carry"). Industries which have the business of providing equipment, actual transport, or goods and services used in transport of goods or people make up a large broad and important sector of most national economies, and are collectively refered to as transport industries. 7
- 8. History of Transportation:- Two-wheel chariot - world’s first form of wheeled transportation - invented in Sumeria, around 3500 BC. This eventually led to invention of four-wheel chariot in due course. Cornelis Drebbel invented the first submarine in 1620 AD Leonardo da Vinci - first to seriously theorize about flying machines - with over 100 drawings that illustrated his theories on flight – 1492 AD 8
- 9. I have taking the Ramaa Shyama Pvt Limited company problem Which is situated in Bareilly District and facing the transportation problem. 9
- 10. Research Methodology Mathematical method to solved transportation problem by three method . 1. North West Corner Method (NWCM) 2. Lowest Cost Entry Method 3. Vogel’s Approximation Method (VAM) 10
- 11. North West Corner Method (NWCM) The North West corner rule is a method for computing a basic feasible solution of a transportation problem where the basic variables are selected from the North–West corner . 11
- 12. Algorithm to solve NWCM Step 1: start with the cell at the upper left (North-West) corner of the transportation matrix and allocate commodity equal to the minimum of the rim values first row and first column, i.e. min(a1,b1). Step 2: if allocation made in step 1 is equal to the supply available at first source (a1, in first row), then move vertically down to the cell (2, 1) in the second row and first column. Apply step 1 again for, for next step. Step 3: Continue the procedure step by step till an allocation is made in the south-east corner of the transportation table 12
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- 14. Total = 10× 200 + 16 × 450 + 16 × 130 + 14 × 90 + 15 × 270 + 16 × 128 + 18 × 122 + 18 × 200 + 22 × 68 + 51 × 292 = Rs. 40822 14
- 15. Least Cost Method Matrix minimum method is a method for computing a basic feasible solution of a transportation problem where the basic variables are chosen according to the unit cost of transportation. 15
- 16. Steps to solve the Least Cost Method Identify the box having minimum unit transportation cost (cij). If there are two or more minimum costs, select the row and the column corresponding to the lower numbered row If they appear in the same row, select the lower numbered column. Choose the value of the corresponding xij as much as possible subject to the capacity and requirement constraints. If demand is satisfied, delete the column . If supply is exhausted, delete the row. Repeat steps 1-6 until all restrictions are satisfied. 16
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- 18. Total Cost = 10 × 200 + 14 × 450 + 16 × 182 + 14 × 38 + 17 × 198 + 18 × 72 + 18 × 250 + 17 × 200 + 22 × 68 + 51 × 292 = Rs. 40694 18
- 19. By Vogel’s Approximation Method Vogel’s approximation (penalty or regret) method is a heuristic method and is preferred more than the other two method describe above. In this method, each allocation is made on the basis of the opportunity cost that would have been incurred if the allocation in certain cell with minimum unit transportation cost were missed. In this method allocation are made so that they are penalty cost minimize. The advantage of this method is that it is give an initial solution which is nearer to an optimal solution or is the optimal solution itself. 19
- 20. Step to solve the Vogel’s Approximation Method Identify the boxes having minimum and next to minimum transportation cost in each row and write the difference (penalty) along the side of the table against the Corresponding row. Identify the boxes having minimum and next to minimum transportation cost in each column and write the difference (penalty) against the corresponding column. Identify the maximum penalty. If it is along the side of the table, make maximum allotment to the box having minimum cost of transportation in that row. If the penalties corresponding to two or more rows or columns are equal, select the top most row and the extreme left column. 20
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- 22. Total Cost- 10 × 200 + 14 × 450 + 16 × 140 + 14 × 38 + 14 × 42 + 17 × 80 + 18 × 190 + 30 × 250 + 18 × 200 + 19 × 360 = Rs. 35598 22
- 23. Comparison of both method North West Corner Method (NWCM) - Rs.40882 Lowest Cost Entry Method - Rs.40692 Vogel’s Approximation Method (VAM)- Rs.35598 23
- 24. Conclusion The transportation methods found the most optimum cost of the transportation of raw material. In this procedure the study shows that Vogel’s Approximation Method is most efficient, its gives Rs.35598. So study can decide that cost allocation plan of Vogel’s Approximation Method is the reasonable plan for acquiring raw material for the plant. 24
- 25. References http://www.sciencedirect.com http://college.cengage.com/mathematics/larson/elementary_linear/4e /shared/downloads/c09s4.pdf M.S. Sodhi, "What about the 'O' in O.R.?" OR/MS Today, December, 2007, p. 12, http://www.lionhrtpub.com/orms/orms-12- 07/frqed.html Introduction to operation research, 8th Edition, Hamdy A. Taha, University of Arkansas, Fayetteville. International Journal of Management Science and Engineering vol.1 (2006) No.1, pp.47-52 Erlander S.B (2010) Cost-Minimizing Choice Behavior in Transportation Planning: A Theoretical. Page 8-10 25
- 26. http://www.scribd.com/doc/7079581 http://www.scribd.com/doc/32121115/Transportation-Model- Management-Science Wikipedia (2010): Transportation Theory. http://en.wikipedia.org/wiki/Transportation_theory 26
- 27. Thank You 27