logging in or signing up EPL ambar.kadam Download Post to : URL : Related Presentations : Share Add to Flag Embed Email Send to Blogs and Networks Add to Channel Uploaded from authorPOINT lite Insert YouTube videos in PowerPont slides with aS Desktop Copy embed code: (To copy code, click on the text box) Embed: URL: Thumbnail: WordPress Embed Customize Embed The presentation is successfully added In Your Favorites. Views: 61 Category: Entertainment License: All Rights Reserved Like it (0) Dislike it (0) Added: December 12, 2010 This Presentation is Public Favorites: 0 Presentation Description No description available. Comments Posting comment... Premium member Presentation Transcript Inventory control models : Inventory control models EPL Model Learning objective : Learning objective After this class the students should be able to: calculate the order quantity that minimize the total cost inventory, based on the EPL model and analyze the implication of this model using what-if through the Excel software. Time management : Time management The expected time to deliver this module is 50 minutes. 30 minutes are reserved for team practices and exercises and 20 minutes for lecture. Inventory & inventory system : Inventory & inventory system Inventory is the set of items that an organization holds for later use by the organization. An inventory system is a set of policies that monitors and controls inventory. It determines how much of each item should be kept, when low items should be replenished, and how many items should be ordered or made when replenishment is needed. Basic types of inventory : Basic types of inventory independent demand, dependent demand, and supplies. Independent Demand : Independent Demand Independent demand items are those items that we sell to customers. Dependent demand items are those items whose demand is determined by other items. Demand for a car translates into demand for four tires, one engine, one transmission, and so on. The items used in the production of that car (the independent demand item) are the dependent demand items. Supplies are items such as copier paper, cleaning materials, and pens that are not used directly in the production of independent demand items Why hold Inventory : Why hold Inventory Each team is invited to discuss for 10 minutes about what they figure out to be the reasons that the organizations maintain inventory. At the and, they have to present a list of their supposed reasons. Five reasons : Five reasons To decouple workcenters; To meet variations in demand; To allow flexible production schedules; As a safeguard against variations in delivery time; and To get a lower price. The cost of Inventory : The cost of Inventory Holding costs; Setup costs; Ordering costs; and Shortage costs. Notation : Notation D = Demand rate (in units per year). c = Unit production cost, not counting setup or inventory costs (in dollars per unit). A = Constant setup (ordering) cost to produce (purchase) a lot (in dollars). h = Holding cost Q = Lot size (in units); this is the decision variable Economic Lot Size Production Model : Economic Lot Size Production Model We use the same notation and assumptions of the EOQ model, but now P ( that not is instantaneous) designates the production rate, and t designates the time needed to produce the lot. Then, Q= P x t The problem : The problem Beth Krider, Manager of Production for Zap Electronics, is making production plans for microphones for portable recorders. The rate of production (P) is 4,000 microphones per month, and the (D) demand rate is 1,000 microphones per month. The cost of each microphone is $6.75, and the inventory holding percent is 0.2. She is wondering whether this lot size gives the lowest cost. Cumulative production and Demand : Cumulative production and Demand 4,000 microphones were made in January, and in February, March, and April, no microphones were produced. 1,000 microphones were sold in January, resulting in an inventory of 3,000 microphones on February 1. The inventory is used up in February, March, and April, so that on April 30 there is no inventory. Then the whole cycle repeats. Monthly inventory of microphones : Monthly inventory of microphones The maximum inventory is 3,000 microphones, and the average inventory is 3,000/2 = 1,500 microphones. Note the similarity between this problem and the EOQ problem we have already shown Slide 15: Now A, the ordering cost, designates the setup cost for producing a lot of the microphones. P designates the production rate, and t designates the time needed to produce the lot. Average Inventory Level : Average Inventory Level The maximum inventory is The average inventory is where The Factor F : The Factor F Demand rate (D) must be less than or equal to the production rate (P). If D = P, production just meets the demand. In this case, the factor is 0, and so is the inventory. If the production rate is very large compared to the demand, D/P is very small. In such cases, the factor is near 1 and the average inventory is Q/2, the same as in the EOQ problem. The straight line shows how the factor depends on the value of D/P. The Costs : The Costs Annual holding cost Where C=cost of each microphone and i =interest rate Annual setup cost = D/Q x A The total cost : The total cost To carry out the calculations, we need the other parameters of the problem. Cost of each microphone: C = 6.75 Percent of holding cost: i = 20% Setup cost: A = $28 Then, Annual holding cost = 4,000 x 3/4 x 6.75 x 0.2/2 = $2,025 Annual setup cost = 12,000/4,000 x 28 = $84 Annual total cost = $2,109 The model : The model Appling the conditions for optimization, we find the optimal value for order quantity and Cost Conclusion : Conclusion We calculated the optimal production lot size and the costs and found that Q* = 814.68, and the total cost is $824.87. This is $1.284.13 less than Beth's solution of ordering 4,000 microphones three times a year. What-if : What-if Each team is invited to built a model in the Excel software and develop what-if analysis (10) minutes What-if : What-if What-if : What-if Open excel file Reference : Reference Operations Analysis Using Excel. Weida; Richardson and Vazsony, Duxbury, 2001,Chapter 6. You do not have the permission to view this presentation. In order to view it, please contact the author of the presentation.
EPL ambar.kadam Download Post to : URL : Related Presentations : Share Add to Flag Embed Email Send to Blogs and Networks Add to Channel Uploaded from authorPOINT lite Insert YouTube videos in PowerPont slides with aS Desktop Copy embed code: (To copy code, click on the text box) Embed: URL: Thumbnail: WordPress Embed Customize Embed The presentation is successfully added In Your Favorites. Views: 61 Category: Entertainment License: All Rights Reserved Like it (0) Dislike it (0) Added: December 12, 2010 This Presentation is Public Favorites: 0 Presentation Description No description available. Comments Posting comment... Premium member Presentation Transcript Inventory control models : Inventory control models EPL Model Learning objective : Learning objective After this class the students should be able to: calculate the order quantity that minimize the total cost inventory, based on the EPL model and analyze the implication of this model using what-if through the Excel software. Time management : Time management The expected time to deliver this module is 50 minutes. 30 minutes are reserved for team practices and exercises and 20 minutes for lecture. Inventory & inventory system : Inventory & inventory system Inventory is the set of items that an organization holds for later use by the organization. An inventory system is a set of policies that monitors and controls inventory. It determines how much of each item should be kept, when low items should be replenished, and how many items should be ordered or made when replenishment is needed. Basic types of inventory : Basic types of inventory independent demand, dependent demand, and supplies. Independent Demand : Independent Demand Independent demand items are those items that we sell to customers. Dependent demand items are those items whose demand is determined by other items. Demand for a car translates into demand for four tires, one engine, one transmission, and so on. The items used in the production of that car (the independent demand item) are the dependent demand items. Supplies are items such as copier paper, cleaning materials, and pens that are not used directly in the production of independent demand items Why hold Inventory : Why hold Inventory Each team is invited to discuss for 10 minutes about what they figure out to be the reasons that the organizations maintain inventory. At the and, they have to present a list of their supposed reasons. Five reasons : Five reasons To decouple workcenters; To meet variations in demand; To allow flexible production schedules; As a safeguard against variations in delivery time; and To get a lower price. The cost of Inventory : The cost of Inventory Holding costs; Setup costs; Ordering costs; and Shortage costs. Notation : Notation D = Demand rate (in units per year). c = Unit production cost, not counting setup or inventory costs (in dollars per unit). A = Constant setup (ordering) cost to produce (purchase) a lot (in dollars). h = Holding cost Q = Lot size (in units); this is the decision variable Economic Lot Size Production Model : Economic Lot Size Production Model We use the same notation and assumptions of the EOQ model, but now P ( that not is instantaneous) designates the production rate, and t designates the time needed to produce the lot. Then, Q= P x t The problem : The problem Beth Krider, Manager of Production for Zap Electronics, is making production plans for microphones for portable recorders. The rate of production (P) is 4,000 microphones per month, and the (D) demand rate is 1,000 microphones per month. The cost of each microphone is $6.75, and the inventory holding percent is 0.2. She is wondering whether this lot size gives the lowest cost. Cumulative production and Demand : Cumulative production and Demand 4,000 microphones were made in January, and in February, March, and April, no microphones were produced. 1,000 microphones were sold in January, resulting in an inventory of 3,000 microphones on February 1. The inventory is used up in February, March, and April, so that on April 30 there is no inventory. Then the whole cycle repeats. Monthly inventory of microphones : Monthly inventory of microphones The maximum inventory is 3,000 microphones, and the average inventory is 3,000/2 = 1,500 microphones. Note the similarity between this problem and the EOQ problem we have already shown Slide 15: Now A, the ordering cost, designates the setup cost for producing a lot of the microphones. P designates the production rate, and t designates the time needed to produce the lot. Average Inventory Level : Average Inventory Level The maximum inventory is The average inventory is where The Factor F : The Factor F Demand rate (D) must be less than or equal to the production rate (P). If D = P, production just meets the demand. In this case, the factor is 0, and so is the inventory. If the production rate is very large compared to the demand, D/P is very small. In such cases, the factor is near 1 and the average inventory is Q/2, the same as in the EOQ problem. The straight line shows how the factor depends on the value of D/P. The Costs : The Costs Annual holding cost Where C=cost of each microphone and i =interest rate Annual setup cost = D/Q x A The total cost : The total cost To carry out the calculations, we need the other parameters of the problem. Cost of each microphone: C = 6.75 Percent of holding cost: i = 20% Setup cost: A = $28 Then, Annual holding cost = 4,000 x 3/4 x 6.75 x 0.2/2 = $2,025 Annual setup cost = 12,000/4,000 x 28 = $84 Annual total cost = $2,109 The model : The model Appling the conditions for optimization, we find the optimal value for order quantity and Cost Conclusion : Conclusion We calculated the optimal production lot size and the costs and found that Q* = 814.68, and the total cost is $824.87. This is $1.284.13 less than Beth's solution of ordering 4,000 microphones three times a year. What-if : What-if Each team is invited to built a model in the Excel software and develop what-if analysis (10) minutes What-if : What-if What-if : What-if Open excel file Reference : Reference Operations Analysis Using Excel. Weida; Richardson and Vazsony, Duxbury, 2001,Chapter 6.