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Model of decision for the management of technology and risk in a port community
, Pages: 211-224 Claudia Durán, Raúl Carrasco and Juan M. Sepúlveda PDF (517 K) |
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Abstract: Strategic management in a port system is complex since the Port Community has to coordinate actions and generate synergy among all the private actors that integrate the export and import logistics chains, trade associations and trade unions. Based on the opinion of the port experts and the analytical network process (ANP), the research identifies the relevant criteria for strategic, business and operational decision-making in the Port Community, in the technological and risk contexts. With the criteria found and considering the strategic alignment that is required, management indicators are constructed. Based on a generic model, a new strategic conceptual model (PORTGD) of ANP for decision management is designed for the Port Community, a cause and effect analysis is carried out and a sensitization study is performed on the nodes. The discussion of the results and conclusions highlights the importance of technological investment, control of port security and good practices for the port system investigated. DOI: 10.5267/j.dsl.2017.10.002 Keywords: ANP, System of components, Strategic management, Synergy relationship, Decision-making
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A novel approach for risk evaluation and risk response planning in a geothermal drilling project using DEMATEL and fuzzy ANP
, Pages: 225-242 Alireza Ghassemi and Ayoub Darvishpour PDF (517 K) |
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Abstract: Risk response planning is a widely concerned issue. Project managers usually struggle to control different kinds of risks. In project risk management, after evaluating risks, the final process relates to choosing desirable responses to the risks. In this paper, a comprehensive framework confronts the issue in three main phases. In the first phase, all the risks, responses and their relations in a geothermal drilling project are detected. These relations imply there are inner dependent and outer dependent relations. In the second phase, ANP, DEMATEL and fuzzy theory play important roles in weighting risks and responses. In the third phase, to enable a more realistic solution, a zero-one integer programming reflects a budget constraint and other required constraints. After obtaining the optimal responses, the effect of budget is analyzed. In addition, the influences of risks on each other are discussed more deeply. Collectively, this study offers a new perspective on how to handle project risks and choose their responses. DOI: 10.5267/j.dsl.2017.10.001 Keywords: Risk response planning, Risk evaluation, Project risk management, Geothermal drilling project, Fuzzy MCDM
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Developing a fuzzy ANP model for performance appraisal based on firm strategy
, Pages: 243-256 Seid Mohammad Reza Mirahmadi, Ali Attafar and Saideh Ketabi PDF (517 K) |
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Abstract: The purpose of this study is to develop a fuzzy Analytic Network Process (ANP) model that has the ability to evaluate employee performance in different strategies. A team of experts in the field of strategic human resource management and senior management of an organization engaged in steel production were involved in the study. The data collection tool was a questionnaire that was designed based on the criteria of organization's performance appraisal system. The results showed that in cost leadership strategy, compliance of work hierarchy, quantity of work and the ability to make important decisions constituted the highest coefficients, while in the focus strategy, participate in group work, power of supervision and administration and decision making ability had the highest importance. In differentiation strategy, innovation and creativity, quality and offering constructive suggestions received higher ratings than other criteria. Finally, the developed model was used to evaluate the performance of a sample employee. DOI: 10.5267/j.dsl.2017.9.001 Keywords: Fuzzy Analytic Network Process, Performance Appraisal, Porter Competitive Strategies, Strategic Human Resource Management
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Prioritizing the refactoring need for critical component using combined approach
, Pages: 257-272 Rajni Sehgal, Deepti Mehrotra and Manju Bala PDF (517 K) |
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Abstract: One of the most promising strategies that will smooth out the maintainability issues of the software is refactoring. Due to lack of proper design approach, the code often inherits some bad smells which may lead to improper functioning of the code, especially when it is subject to change and requires some maintenance. A lot of studies have been performed to optimize the refactoring strategy which is also a very expensive process. In this paper, a component based system is considered, and a Fuzzy Multi Criteria Decision Making (FMCDM) model is proposed by combining subjective and objective weights to rank the components as per their urgency of refactoring. Jdeodorant tool is used to detect the code smells from the individual components of a software system. The objective method uses the Entropy approach to rank the component having the code smell. The subjective method uses the Fuzzy TOPSIS approach based on decision makers’ judgement, to identify the critically and dependency of these code smells on the overall software. The suggested approach is implemented on component-based software having 15 components. The constitute components are ranked based on refactoring requirements. DOI: 10.5267/j.dsl.2017.8.003 Keywords: Code smell, Refactoring, FMCDM analysis, Entropy, Fuzzy TOPSIS
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Application of the modified similarity-based method for cutting fluid selection
, Pages: 273-286 Kanika Prasad and Shankar Chakraborty PDF (517 K) |
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Abstract: An enormous amount of heat is released at the contact surface during machining of a component/partdue to friction, rubbing action and cutting forces generated. Cutting fluids are generally applied to provide lubrication and cooling at the tool and workpiece interface. They also play a beneficial role in machining operations, and enhance job shop’s productivity, tool life and quality of the finished parts/products. In addition to these, they act as an important contributor in optimizing a machining operation. However, a cutting fluid suitable for a particular machining requirement may not be equally good for other applications and hence, there is a need for selection of the appropriate type of cutting fluid with a view to facilitate superlative and uncomplicated machining operation. Several factors, such as material ofthe cutting tool, operator’s safety, compatibility with the machine tool, reliability and rancidity of the cutting fluid, and cost may all combine to limit the effectiveness or applicability of a cutting fluid. Therefore, the present study explores the potentiality of a modified similarity-based method, which is a multi-criteria decision making tool, in solving cutting fluid selection problems. To illustrate the procedural steps of this method, two real time problems are solved. The results obtained highly corroborate with the opinions of the experts in the related field, demonstrating the applicability of the said method. DOI: 10.5267/j.dsl.2017.8.002 Keywords: Cutting fluid selection, Multi-criteria decision making, Modified similarity-based method, Performance score, Ranking
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A monopoly pricing model for diffusion maximization based on heterogeneous nodes and negative network externalities (Case study: A novel product)
, Pages: 287-300 Aghdas Badiee and Mehdi Ghazanfari PDF (517 K) |
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Abstract: Social networks can provide sellers across the world with invaluable information about the structure of possible influences among different members of a network, whether positive or negative, and can be used to maximize diffusion in the network. Here, a novel mathematical monopoly product pricing model is introduced for maximization of market share in noncompetitive environment. In the proposed model, a customer’s decision to buy a product is not only based on the price, quality and need time for the product but also on the positive and negative influences of his/her neighbors. Therefore, customers are considered heterogeneous and a referral bonus is granted to every customer whose neighbors also buy the product. Here, the degree of influence is directly related to the intensity of the customers’ relationships. Finally, using the proposed model for a real case study, the optimal policy for product sales that is the ratio of product sale price in comparison with its cost and also the optimal amounts of referral bonus per customer is achieved. DOI: 10.5267/j.dsl.2017.8.001 Keywords: Pricing, Monopole social network, Diffusion, Heterogeneous nodes, Mathematical programming, Negative externality
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The degree constrained k-cardinality minimum spanning tree problem: a lexi-search algorithm
, Pages: 301-310 Thenepalle Jayanth Kumar and Singamsetty Purusotham PDF (517 K) |
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Abstract: This paper deals with the degree constrained k-cardinality minimum spanning tree (k-MSTPD) problem defined on a connected, edge weighted and undirected graph. The aim of this problem is to determine the least weighted spanning tree with exactly k vertices such that except the root vertex, no other vertex in the resultant spanning tree exceeds the specified degree limit. The k-MSTPD problem has many practical applications for the design of electric, communication, and transportation networks. The problem is then formulated as a zero-one programming. In this paper, an exact algorithm known as Lexi-search algorithm (LSA) is developed to tackle the k-MSTPD problem. Furthermore, the developed LSA is programmed in Matlab and tested on some benchmark instances as well as on random instances and the respective results are reported. The obtained experimental results showed that the developed LSA takes significantly less time to find the optimal solutions. DOI: 10.5267/j.dsl.2017.7.002 Keywords: k-cardinality minimum spanning tree, Lexi-search algorithm, Degree constraint
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Optimal selling price, replenishment lot size and number of shipments for two-echelon supply chain model with deteriorating items
, Pages: 311-322 Amir Nasiri pour and Somayeh Najafi Ghobadi PDF (517 K) |
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Abstract: This paper deals with a pricing and production-distribution model for a deteriorating item in a two-echelon supply chain. The profit function for the manufacturer and retailer in the integrated supply chain is derived. The manufacturer's production batch size is regulated to an integer multiple of the discrete delivery lot quantity to the retailer. The objective is to maximize the total profit per unit time by finding the optimal selling price, production lot size, total cycle time, number of deliveries, and delivery lot size, simultaneously. Based on the notion of optimal interval, we outline an effective algorithm for finding the optimal solution. Finally, the authors present a numerical example to illustrate the theoretical results of the model. Sensitivity analysis for the optimal solution with respect to major parameters is also carried out. The results show that, when the deterioration rate increases, both the optimal production lot size and cycle time decrease. It is interesting to note that an increase in the deterioration rate also tends to reduce the delivery lot size without affecting the number of deliveries per production batch. Also, the optimal interval for N does not change when deterioration rate changes. Reductions in the inventory cycle times for both parties demonstrate the negative effects of deterioration on the supply chain. DOI: 10.5267/j.dsl.2017.7.001 Keywords: Pricing, Lot-sizing, Multiple shipments, Deteriorating item
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