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Designing a location-routing model for cross docking in green supply chain
, Pages: 1-16 Afrouz Rahmandoust and Roya Soltani PDF (360K) |
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Abstract: Today, most industrial managers in the world are interested in protecting the environment and biological resources. On the other hand, current technologies are getting momentum towards specialization and globalization. Thus, in order to remain in a highly competitive world market, producers have to respond to the customers' demands under different circumstances. The leading role of distribution centers to deliver products to customers on time and to reduce the costs of stock maintenance has attracted the attention of many supply chain managers in current competitive conditions. Cross docking is a logistic strategy aiming to reduce the stock and increase the level of customer's satisfaction. Products are delivered from the supplier to the customers through cross docking. In this paper, a nonlinear multiproduct vehicle location-routing model is presented with heterogeneous vehicles. Each truck can carry one or more types of products. In other words, compatibility between product and vehicle has been accounted for here. This model aims to find out the possible minimum number of cross dockings among the existing set of discrete locations and minimize the total cost of opening cross docking centers as well as vehicle transportation (distribution and operation cost) costs. In sum, the model aims to find the number of cross docking centers, the number of vehicles and the best route in the distribution network. Since the model is mixed integer programming, to apply the model to medium and large scale problems, meta innovative genetic and particle swarm optimization algorithms are introduced. The results obtained from examining various problems show high efficiency of the proposed methods. DOI: 10.5267/j.uscm.2018.7.001 Keywords: Cross docking, Vehicle location-routing, Multiproduct, Various vehicles, Split pickup and delivery, Green supply chain
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Open Access Article | |||
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A multi-depot location routing problem to reduce the differences between the vehicles’ traveled distances; a comparative study of heuristics
, Pages: 17-32 Hengameh Hadian, Amir-Mohammad Golmohammadi, Akbar Hemmati and Omolbanin Mashkani PDF (360K) |
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Abstract: This paper presents a model to solve the multi-objective location-routing problem with capacitated vehicles. The main purposes of the model are to find the optimal number and location of depots, the optimal number of vehicles, and the best allocation of customers to distribution centers and to the vehicles. In addition, the model seeks to optimize vehicle routes and sequence to serve the customers. The proposed model considers vehicles’ traveled distances, service time and waiting time while guaranteeing that the sum of these parameters is lower than a predetermined value. Two objective functions are investigated. First objective function minimizes the total cost of the system and the second one minimizes the gap between the vehicles’ traveled distances. To solve the problem, a Multi-Objective Imperialist Competitive Algorithm (MOICA) is developed. The efficiency of the MOICA is demonstrated via comparing with a famous meta-heuristics, named Non-Dominated Sorting Genetic Algorithm-II (NSGA-II). Based on response surface methodology, for each algorithm, several crossover and mutation strategies are adjusted. The results, in terms of two well-known comparison metrics, indicate that the proposed MOICA outperforms NSGA-II especially in large sized problems. DOI: 10.5267/j.uscm.2018.6.001 Keywords: Location routing problem (LRP), Vehicle routing; Facility location, Imperialist competitive algorithm (ICA), NSGA-II
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Open Access Article | |||
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An inventory model with credit, price and marketing dependent demand under permitted delayed payments and shortages: A signomial geometric programming approach
, Pages: 33-48 Masoud Rabbani and Leyla Aliabadi PDF (360K) |
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Abstract: In this study, we incorporate trade credit policy into a joint marketing and pricing problem in which demand rate depends on the length of the credit period provided by the retailer for her customers, marketing expenditure, and selling price. The trade credit policy adopted here is a delayed payment policy in partial form in which the customers must pay a percent of the total purchasing cost at the time of placing an order and can pay the remaining amount later. Shortages are allowed and partially backordered. The main objective of this study is to determine the optimal credit period, marketing expenditure, selling price, and variables of inventory control simultaneously in order to maximize retailer’s total profit. For solving the proposed problem, first an approximation method is applied to simplify the profit function and transform the problem into a constrained Signomial Geometric Programming (SGP) problem, then a global optimization approach is used for solving the model. Finally, a numerical example and sensitivity analysis of the important parameters are conducted to show the effectiveness of proposed approach. DOI: 10.5267/j.uscm.2018.5.004 Keywords: Credit-dependent demand, Partial delayed payment, Partial backordering, Signomial geometric programming
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Open Access Article | |||
4. |
Effects of learning on retailer ordering policy for imperfect quality items with trade credit financing
, Pages: 49-62 Mahesh Kumar Jayaswal, Isha Sangal, Mandeep Mittal and Sarthak Malik PDF (360K) |
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Abstract: Learning curves monitor the performance of workers for the given new task as well as it is a mathematical representation of the same learning process which can be analyzed after frequent repetitions. Now-a-days learning curve is a promotion effective tool for management concern with designing and controlling the process of imperfect production and redesigning unbalanced business operations in the production of goods or services related to scheduling, uncontrolled inventory management, quality management as well as inspection. Learning effect has direct impact in calculation of profit or loss. Generally, a business seller, in order to increase his sale prefers to lend his products to buyers for a definite period of time. There is no penalty before or during this definite time period however after the duration of lending time period is over, he will assign some extra charges. For this action, seller offers a trade credit financing period to his buyer. Assuming when buyer receives a lot he separates the defective and non-defective items by a screening process and defective items are then sold at a discounted price. The percentage of defective items decreases per lot according to learning curve. Seller too plans which condition is beneficial for good coordination of retailers and analysts. Different cases are explained broadly in this model to get maximum profit. In this paper, a fiscal construction feature model for imperfect quality items with trade credit policy is analyzed under the effects of learning. Total profit function per cycle has been derived with the help of involvement of different costs and related parameters for the retailers and a numerical example given ahead shows the verification of results. The impacts of key parameters of the model are studied by sensitivity analysts to deduce managerial insights. DOI: 10.5267/j.uscm.2018.5.003 Keywords: EPQ, Learning effects, Imperfect items, Trade-credit financing
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Open Access Article | |||
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The contributing factors towards e-logistic customer satisfaction: a mediating role of information technology
, Pages: 63-72 Muhammad Imran, Siti Norasyikin binti Abdul Hamid, Azelin binti Aziz and Waseem-Ul-Hameed PDF (360K) |
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Abstract: In this era of industrialization, there is an increase rate of e-logistic services, which has raised the necessity to pay more attention on e-logistic customer satisfaction. E-logistic services spread so rapidly worldwide which overlook the significant segment of customer satisfaction. Therefore, the prime objective of the current research study is to develop a comprehensive framework for e-logistics customer satisfaction. Various studies highlighted the area of e- logistic customer satisfaction, however, in a rare case, literature formally documented the problem of e-logistic customer satisfaction. Hence, less attention has been paid to the aspect of customer satisfaction in e-logistic. To address this gap, four hypotheses are proposed concerning the relationship of low distribution charges (LDC), low transit time (LTT), effective payment method (EPM), information technology (IT) and e-logistic customer satisfaction. An e-mail survey was preferred, and questionnaires were distributed by using simple random sampling technique. The three hundred (300) questionnaires were distributed among the e-logistic users. The results of the current study found that low distribution charges, low transit time, effective payment method and information technology had a positive significant relationship with e-logistic customer satisfaction. Furthermore, information technology found main contributory element between effective payment method and e-logistic customer satisfaction. This study is contributing to the body of knowledge by developing a comprehensive framework to solve various e-logistic problems. Hence, the current study is helpful for e-logistic companies to mitigate e-logistic customer satisfaction problems. DOI: 10.5267/j.uscm.2018.5.002 Keywords: Low distribution charges, Low transit time, Effective payment method, Information technology, E-logistic customer satisfaction
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Open Access Article | |||
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Coordinating order acceptance and integrated lot streaming-batch delivery scheduling considering third party logistics
, Pages: 73-96 Amir Noroozi, Mohammad Mahdavi Mazdeh, Mehdi Heydari and Morteza Rasti-Barzoki PDF (360K) |
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Abstract: Inspired by the industries such as food and beverage, metal and steel, as well as petroleum and petrochemical ones, the current study addresses a joint order acceptance and scheduling, lot streaming in a flexible flow shop and batch delivery problem. For maximizing a profit objective function with trading off between the revenue of the accepted orders and the costs incurred, a novel mixed integer linear programming is proposed. This paper develops a hybrid metaheuristic algorithm based on the Genetic Algorithm. In the developed algorithm, (1) a heuristic, (2) a local search, and (3) a restart phase is proposed. To set the appropriate parameters of the algorithms, Taguchi experimental design was applied. The obtained results reveal the appropriate performance of the hybrid genetic algorithm. DOI: 10.5267/j.uscm.2018.5.001 Keywords: Genetic algorithm, Order acceptance, Flexible flow shop, Lot streaming, Batch delivery, Third-party logistics
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7. |
Pricing model for instantaneous deteriorating items with partial backlogging and different demand rates
, Pages: 97-108 Hetal Patel PDF (360K) |
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Abstract: In this study, a single product is considered which starts to deteriorate with constant rate of replenishment and demand rate is time and price dependent exponential function. Shortage is allowed with partial back logging and the relationship between backorder rate and waiting time is considered to be exponential. The aim is to decide pricing strategy and maximize total average profit function. Total profit function is optimized analytically and proved to be concave function of price. Finally, numerical example is given to illustrate the implementation of the algorithm followed by the sensitivity analysis. DOI: 10.5267/j.uscm.2018.4.002 Keywords: Instantaneous deterioration, Price discount, Back order, profit, Price and time dependent
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8. |
A multi-product inventory management model in a three-level supply chain with multiple members at each level
, Pages: 109-120 Saeed Ghourchiany and M. Khakzar Bafrouei PDF (360K) |
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Abstract: In this paper, a mathematical model for multi-product inventory management in a three-tier supply chain consisting of multi-supplier, a manufacturer, and several retailers is presented. The model determines different factors such as the optimum ordering of the raw materials and the optimal level of the production items with the optimal order of the products by retailers at each level of the chain, with the objective of minimizing inventory management costs in the supply chain. An algorithm is presented to determine the solution of the problem and the implementation of the proposed method is demonstrated using some numerical example. DOI: 10.5267/j.uscm.2018.4.001 Keywords: Supply chain management, Three-level supply chain, Inventory management
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