1. |
Generalized exponential distribution: A Bayesian approach using MCMC methods
, Pages: 1-14 Jorge Alberto Achcar, Fernando Antȏnio Moala and Juliana Boleta PDF (3062K) |
Abstract: The generalized exponential distribution could be a good option to analyse lifetime data, as an alternative for the use of standard existing lifetime distributions as exponential, Weibull or gamma distributions. Assuming different non-informative prior distributions for the parameters of the model, we introduce a Bayesian analysis using Markov Chain Monte Carlo (MCMC) methods. Some numerical illustrations considering simulated and real lifetime data are presented to illustrate the proposed methodology, especially the effects of different priors on the posterior summaries of interest. DOI: 10.5267/j.ijiec.2014.8.002 Keywords: Generalized exponential distribution, Non-informative priors, Bayesian analysis, MCMC methods |
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2. |
A new multi objective optimization model for designing a green supply chain network under uncertainty
, Pages: 15-32 Mohammad Mahdi Saffar Hamed Shakouri G. and Jafar Razmi PDF (302K) |
Abstract: Recently, researchers have focused on how to minimize the negative effects of industrial activities on environment. Consequently, they work on mathematical models, which minimize the environmental issues as well as optimizing the costs. In the field of supply chain network design, most managers consider economic and environmental issues, simultaneously. This paper introduces a bi-objective supply chain network design, which uses fuzzy programming to obtain the capability of resisting uncertain conditions. The design considers production, recovery, and distribution centers. The advantage of using this model includes the optimal facilities, locating them and assigning the optimal facilities to them. It also chooses the type and the number of technologies, which must be bought. The fuzzy programming converts the multi objective model to an auxiliary crisp model by Jimenez approach and solves it with ε-constraint. For solving large size problems, the Multi Objective Differential Evolutionary algorithm (MODE) is applied. DOI: 10.5267/j.ijiec.2014.10.001 Keywords: Reverse supply chain, CO2 emission, Uncertainty, Jimenez method, Multi objective differential evolutionary algorithm |
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3. |
Ann modeling of kerf transfer in Co2 laser cutting and optimization of cutting parameters using monte carlo method
, Pages: 33-42 Miloš Madić Miroslav Radovanović and Marin Gostimirović PDF (338K) |
Abstract: In this paper, an attempt has been made to develop a mathematical model in order to study the relationship between laser cutting parameters such as laser power, cutting speed, assist gas pressure and focus position, and kerf taper angle obtained in CO2 laser cutting of AISI 304 stainless steel. To this aim, a single hidden layer artificial neural network (ANN) trained with gradient descent with momentum algorithm was used. To obtain an experimental database for the ANN training, laser cutting experiment was planned as per Taguchi’s L27 orthogonal array with three levels for each of the cutting parameters. Statistically assessed as adequate, ANN model was then used to investigate the effect of the laser cutting parameters on the kerf taper angle by generating 2D and 3D plots. It was observed that the kerf taper angle was highly sensitive to the selected laser cutting parameters, as well as their interactions. In addition to modeling, by applying the Monte Carlo method on the developed kerf taper angle ANN model, the near optimal laser cutting parameter settings, which minimize kerf taper angle, were determined. DOI: 10.5267/j.ijiec.2014.9.003 Keywords: CO2 laser cutting, Kerf taper, Modeling, Optimization, Artificial neural network, Monte Carlo method |
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4. |
Application of imperialist competitive optimization algorithm in power industry
, Pages: 43-58 Mohammad Shahrazad and Amir Hessam Alikhanzadeh PDF (469K) |
Abstract: In future electricity industry transferring high quality of power is essential. In this case, using Flexible AC Transmission System (FACTS) devices is inevitable. FACTS devices are used for controlling the voltage, stability, power flow and security of transmission lines. Therefore, finding the optimal locations for these devices in power networks is necessary. There are several varieties of FACTS devices with different characteristics, deployed for different purposes. Imperialist Competitive (IC) algorithm is a recently developed optimization technique, applied in power systems. IC algorithm is a new heuristic approach for global optimization searches based on the concept of imperialistic competition. In this paper, an IEEE 4-bus system is deployed as a case study in order to demonstrate the results of this novel approach using MATLAB. DOI: 10.5267/j.ijiec.2014.9.002 Keywords: Imperialist Competitive, Algorithm FACTS Devices, Optimization, Evolutionary Algorithms, Total Transfer Capability |
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5. |
Two-warehouse inventory model for deteriorating items with price-sensitive demand and partially backlogged shortages under inflationary conditions
, Pages: 59-80 Chandra K. Jaggi Sarla Pareek, Aditi Khanna and Ritu Sharma PDF (396K) |
Abstract: In today’s competition inherited business world, managing inventory of goods is a major challenge in all the sectors of economy. The demand of an item plays a significant role while managing the stock of goods, as it may depend on several factors viz., inflation, selling price, advertisement, etc. Among these, selling price of an item is a decisive factor for the organization; because in this competitive world of business one is constantly on the lookout for the ways to beat the competition. It is a well-known accepted fact that keeping a reasonable price helps in attracting more customers, which in turn increases the aggregate demand. Thus in order to improve efficiency of business performance organization needs to stock a higher inventory, which needs an additional storage space. Moreover, in today’s unstable global economy there is consequent decline in the real value of money, because the general level of prices of goods and services is rising (i.e., inflation). And since inventories represent a considerable investment for every organization, it is inevitable to consider the effects of inflation and time value of money while determining the optimal inventory policy. With this motivation, this paper is aimed at developing a two-warehouse inventory model for deteriorating items where the demand rate is a decreasing function of the selling price under inflationary conditions. In addition, shortages are allowed and partially backlogged, and the backlogging rate has been considered as an exponentially decreasing function of the waiting time. The model jointly optimizes the initial inventory and the price for the product, so as to maximize the total average profit. Finally, the model is analysed and validated with the help of numerical examples, and a comprehensive sensitivity analysis has been performed which provides some important managerial implications. DOI: 10.5267/j.ijiec.2014.9.001 Keywords: Two-warehouse, Price-dependent demand Deterioration, Partial Backlogging, Inflation, FIFO/LIFO |
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6. |
A generalized multi-depot vehicle routing problem with replenishment based on LocalSolver
, Pages: 81-98 Ying Zhang Mingyao Qi, Lixin Miao and Guotao Wu PDF (310K) |
Abstract: In this paper, we consider the multi depot heterogeneous vehicle routing problem with time windows in which vehicles may be replenished along their trips. Using the modeling technique in a new-generation solver, we construct a novel formulation considering a rich series of constraint conditions and objective functions. Computation results are tested on an example comes from the real-world application and some cases obtained from the benchmark problems. The results show the good performance of local search method in the efficiency of replenishment system and generalization ability. The variants can be used to almost all kinds of vehicle routing problems, without much modification, demonstrating its possibility of practical use. DOI: 10.5267/j.ijiec.2014.8.005 Keywords: Vehicle routing, Multi-depot, Replenishment, Generalized model, Local search |
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7. |
Web service and dynamic pricing competition
, Pages: 99-116 Ehram Safari and Masoud Babakhani PDF (434K) |
Abstract: Web services have become quite popular over the last few years as they allow easier development and integration of business applications. In this paper, we consider a web service pricing problem where two providers compete through dynamic pricing. Each provider offers access to a web service with different quality classes where users may buy their required web service through a reservation system. They would like to adjust the prices of their web services over a pre-specified time horizon to manage demand and to maximize profit. Users have the right with no obligation to cancel their services as long as they pay a penalty. We consider a dynamic setting where the web service classes share a capacity. We first develop a time continuous model for competitive pricing of a web service and then we provide some insights about the equilibrium condition of the problem using open-loop differential game and propose an algorithm to obtain the optimal pricing policy for providers. Moreover, we conduct numerical analyses to examine the impacts of some parameters on control and state variables. DOI: 10.5267/j.ijiec.2014.8.004 Keywords: Differential game, Dynamic pricing, E-commerce, Revenue Management, Nonlinear Programming, Service supply chain |
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8. |
Design and simulation of CONWIP in the complex flexible job shop of a Make-To-Order manufacturing firm
, Pages: 117-134 Giovanni Romagnoli PDF (486K) |
Abstract: This paper presents a methodology for the design and integration of CONWIP in a make-to-order firm. The approach proposed was applied directly to the flexible job shop of a real manufacturing firm in order to assess the validity of the methodology. After the description of the whole plant layout, attention was focused on a section of the shop floor (21 workstations). The CONWIP system deals with multiple-product families and is characterized by path-type cards and a pull-from-the-bottleneck scheme. The cards release strategy and a customized dispatching rule were created to meet the firm’s specific needs. After the simulation model of the present state was built and validated, the future state to be implemented was created and simulated (i.e. the CONWIP system). The comparison between the two systems achieved excellent results, and showed that CONWIP is a very interesting tool for planning and controlling a complex flexible job shop. DOI: 10.5267/j.ijiec.2014.8.003 Keywords: CONWIP, Simulation, Shop floor, Complex manufacturing system, Flexible job shop, Make-to-order |
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