2024-03-29T15:15:34Z
https://aie.ut.ac.ir/?_action=export&rf=summon&issue=7154
Advances in Industrial Engineering
J. Ind. Eng.
2014
48
2
Identification of Factors Affecting the Privatization of Iran's Gas Refining Industry; an Integrated Approach Delphi- DEMATEL: Parsian Gas Refinery Co.
Reza
Eshgarf
Saeed
Mirzamohammadi
Seyed Jafar
Sajadi
In this article, the results of special effects of privatization of Iranian Gas refining industry with Delphi-DEMATEL integrative approach are presented. According to the results of this research in Delphi technique base, all together, experts recognize 39 pivotal factors in privatization of the Gas refining companies. Then by the aids of DEMATEL technique, in previous step, according to experts view, effective abstract factors, were prioritized by graph theory.
So, the terms among factors the way and intensity impact on their mutual affect of results. According to the result of this research, coherence and concordance among all political sections have the most affection of privatization from legislation to execution and supervisor and reliance and rived participation of private section, by glassiness, justice and preparing equal chance for all, have the highest impression ability.
Gas refining industries
Privatization
Delphi
DEMATEL
2014
09
23
137
150
https://aie.ut.ac.ir/article_52909_96c25fc07fcdb535578c53d1b774aa8e.pdf
Advances in Industrial Engineering
J. Ind. Eng.
2014
48
2
Analyzing the Relationship between Contractor’s Qualification Measures and Project Quality in Research Projects: a Case Study
Seyed Hossein
Iranmanesh
Majid
Shakhsi Niaei
Fateme
Sobhani
Majid
Abdollahzade
This paper proposes a neuro fuzzy model for analyzing the relationship between contractor’s qualifications and project quality in research projects. The proposed model has been implemented in a research-based organization, IIES. Cross validation method has been used in order to generate some set of data which have been used for different evaluations. The proposed neuro fuzzy model has dominated the linear regression model not only in average, but also in each data set. Moreover, the results showed a confident relationship between project quality and three criteria used for evaluating the contractor’s qualifications.
Project quality management
Project-Based Organization
Contractor’s qualifications
Neuro-fuzzy modeling
2014
09
23
151
166
https://aie.ut.ac.ir/article_52910_c9941dd34c4f254ecb2861557de367f7.pdf
Advances in Industrial Engineering
J. Ind. Eng.
2014
48
2
Designing a Residential Valuation Model through Analytic Hierarchy Process
Kian
Behdad
Mohammad taghi
Isaai
Mandana
Farzaneh
The decision to buy, sell, design and construct residential apartments is a complex process due to a combination of multiplequalitative and quantitative factors. It thus requires a great deal of costs and time for decision makers in this market. Identifying these factors and determining the priority of them are importance for selectingan apartment. The aim of current research is to identify the affecting factorsof the desirability of a residential apartment by utilizing the knowledge and experience of experts in the housing market and then determine the priority ofeach factor through AHP method. In this case, certain experts in Mashhad city were chosen in order to specify the influential factors from the customers view point and rank them through paired comparison. In the last step, qualitative and quantitative factors are combined and the assessment model for determining the value ofresidential apartment is presented.
Residential apartment
Valuation
Utility
Decision making
Analytic Hierarchy Process
2014
09
23
167
176
https://aie.ut.ac.ir/article_52911_0cc02922633dfde515cfc950ad3498dc.pdf
Advances in Industrial Engineering
J. Ind. Eng.
2014
48
2
Developing a New Approach for Product Performance Evaluation Based on Balanced Scorecard:
An empirical study of a Dairy Company
Jafar
Razmi
Hassan
Mina
Meisam
Nasrollahi
To survive in today’s competitive environment, companies need continues improvement to achieve goals such as increasing the accuracy of targeting, improving product or service. However, there is no improvement guaranty without performance evaluation. An organization must assess current performance before embarking on any improvement. If it does not, it will have no baseline from which to determine if its efforts have yielded any improvement. Product development team must evaluate the product performance to enhance existing products so that they continue to meet changing customer requirements. Product performance evaluate the company to maintain market share and leadership. Innovation and new product development are important to build market breakthroughs. Product performance evaluation is necessary before making any change because new product development require high levels of investment and involve significant risk of product failure.
One of the proper evaluation methods is Balance Scorecard. In the Balanced Scorecard approach actual performance is measured, the measured value is compared to an expected value and based on the difference between the two corrective interventions are made as required. Such measurement requires three things to be effective: I) a choice of data to measure, II) the setting of an expected value for the data, and III) the ability to make a corrective intervention. However this approach cannot consider the combination of measurement factors. In order to overcome this problem, in this paper a novel approach has been developed for performance evaluation based on balanced scorecard and fuzzy analytic network process (F-ANP). Considering the interdependency of measurement factors, the proposed method increases the efficiency of performance evaluation process.
The proposed method is implemented in product development department of a dairy company. Measurement factors are defined based on literature and also expert’s opinions. Then the weights are calculated by F-ANP. Finally, the performance of 4 new products is evaluated by the proposed approach. Results obtained, shows the efficiency of proposed method as a practical approach for product evaluation process.
Performance Evaluation
Analeptic network process
Fuzzy logic
Balance scorecard
2014
09
23
177
188
https://aie.ut.ac.ir/article_52912_702e65b0de622b9d7f2dcfb8fb9d18ce.pdf
Advances in Industrial Engineering
J. Ind. Eng.
2014
48
2
A Bi-objective Model for a Flowshop Scheduling Problem with Availability Constraint of Machines
Mohammad
Rezaei Malek
Reza
Tavakkoli Moghaddam
Farshid
Evaz Abadian
This paper presents a new bi-objective mathematical model for a permutation flowshop scheduling problem with availability constraint in case of preventive maintenance operations on machines. In this paper, preventive maintenance is flexible and there is not a certain time for the maintenance operation; however, time between two consecutive maintenance operations for each machine should not be greater than a given time. The model has two objectives; (1) minimizing the makespan (i.e., Cmax) and, (2) minimizing the sum of earliness and tardiness simultaneously. This study reports the results obtained by the Reservation Level Tchebycheff Procedure (RLTP) and the ε-constraint method for solving a case study problem. The results show high quality of reached solutions from RLTP in comparison with the ε-constraint method.
Permutation flowshop scheduling
Preventive maintenance
Earliness and tardiness
Cmax
Bi-objective optimization
2014
09
23
189
200
https://aie.ut.ac.ir/article_52913_e45b32259e066802d748902278f0fbaa.pdf
Advances in Industrial Engineering
J. Ind. Eng.
2014
48
2
Performance Evaluation of Mazandaran Water and Wastewater by Data Envelopment Analysis and Artificial Neural Network
Javad
Rezaeian
Abbas
Asgarinezhad
In this study, Mazandaran Water and Wastewater Company’ performance is evaluated by using an input-oriented data envelopment analysis. As a principle, the performance of each organizational unit or organization should be measured as far as possible and what cannot be evaluated cannot be well governed. One method of evaluating the performance of units is data envelopment analysis method. One of the main problems of using data envelopment analysis is its low-resolution which it is due to the low number of decision making units to compare with the number of inputs and outputs. Given to the calculated efficiency by the DEA model (CCR input-oriented) for 16 decision making unit for years 1389 and 1390 there is the problem of existence of several efficient areas, which in the first step was used from Anderson and Peterson (AP) technique to cover this weaknesses. Since the AP technique involves solving a linear programming model for each of the DMUs. Therefore, by increasing the dimension of issue, efficiency assessment will be time consuming process. So the idea of using a neural network with efficiency data of data envelopment analysis is proposed as an alternative approach. Analytical results of calculated efficiencies of DMUs by the combination method of Neuro-DEA indicate the high power of neural network in resolution of decision-making areas in terms of efficiency.
Input-oriented CCR model
Anderson and Peterson model (AP)
Data Envelopment Analysis
Artificial neural networks (ANNs)
2014
09
23
201
213
https://aie.ut.ac.ir/article_52914_3f2abafea9f67bf135afd69a264e7af3.pdf
Advances in Industrial Engineering
J. Ind. Eng.
2014
48
2
Particle Swarm Optimization Algorithm for Integrated Lot-sizing and Scheduling in Flowshop Production Environment
Reza
Ramezanian
Mohsen
Shafiei Nikabadi
Sahar
Fallah Sanami
Production planning and scheduling are the most important issues of the production industries, which have a considerable influence on the productivity of the production systems. Although, production planning and scheduling are in two different medium-term and short-term decision making levels, there are a very close relationship between them. Ignoring this important feature in production planning aggravates costs and reduces productivity of system. Accordingly, in this paper, scheduling constraints have been considered in production planning in order to take into account, the interconnection between these two levels
The purpose of this paper is to study the multi-product and multi-period production systems in the flowshop environement so that the production and scheduling constraints are considered integrated. A more efficient mixed integer programming model with big bucket time approach is proposed to formulate the problem, which can simultaneously achieve a production plan and schedule and that is one of the main novelty of the paper. The objective function includes the cost of production, inventory, shortage and setups. Due to the high computational complexity, particle swarm optimization algorithm is proposed to solve the problem. To evaluate the efficiency of the algorithm, two mixed integer programming-based approaches with rolling horizon framework is proposed and the results are compared with each othre. . In addition, Taguchi method is used for tunning the parameters of implemented meta-heuristic.The presented algorithms explore the solution space for both lot-sizing and scheduling and find a combination of production plan and sequence that is feasible and close to optimum. Computational experiments are performed on randomly generated instances to show the efficiency of the solution methods. Computational experiments demonstrate that the performed methods have good-quality results for the test problems. Computational experiences show that the proposed algorithms can find good quality solution for the problem in a reasonable time. Also, the computational experiences confirm the efficiency of meta-heuristic against exact and heuristic methods. The average of objective value for PSO, heuristic 1 and heuristic 2 are 98.21, 104.20 and 108.29 (×103), respectively.
Multi-stage production system
Integrated lot-sizing and scheduling
Mathematical model
Mixed-integer programming based algorithm
Particle swarm optimizatin
2014
09
23
215
228
https://aie.ut.ac.ir/article_52915_01358cc54fa7ffac70591999797b9652.pdf
Advances in Industrial Engineering
J. Ind. Eng.
2014
48
2
Robust Economic-Statistical Design of Control Charts - A Case Study in Automotive Industry
Abdolsattar
Safaei
Reza
Baradaran Kazemzadeh
Mohammad
Aghdasi
One of the most important problems of the designs proposed by traditional economic-statistical approaches of control charts is inefficiency in the face of uncertainty. Uncertainty in the parameters of economic-statistical models may lead to failure in rapidly detecting changes in processes and impose greater costs to the organization. Monitoring the machining process in an automotive industry explains the necessity of considering the robust approach to the control charts. This research intends the control charts design for monitoring process quality characteristics in conditions of uncertainty in cost and process parameters. The robust design ensures that the proposed control chart alarms the process changes earlier than the time set by the user, despite the uncertainty in model parameters. The resulted robust optimal solutions not only ensure the efficiency of solutions in any realization of parameters, but also facilitate the practical implementation of control charts and reduce organization costs through improving the quality of process outgoings.
Economic-statistical design
Robust optimization
Genetic Algorithm
Statistical Process Control
2014
09
23
229
241
https://aie.ut.ac.ir/article_52916_d15e2a68970b596b11abdc325599687b.pdf
Advances in Industrial Engineering
J. Ind. Eng.
2014
48
2
A Bender’s Decomposition Algorithm for Multi-objective Hub Location Problem Considering Stochastic Characteristics
Saeid
Abbasiparizi
Majid
Aminnayeri
Mahdi
Bashiri
In this paper, a multi-objective hub location problem considering stochastic links and candidate nodes characteristics is modeled. The first objective is to minimize total costs, including setup and transportation costs. The second one is to minimize network risks. Characteristics such as weather conditions, safety, exchange rate, crisis, are defined as uncertainty parameters and considered as different scenarios. Due to the size of the numbers of scenarios, it is assumed that the distribution of their risks is considered to be normal. Also reliability levels associated to candidate hub nodes and links are considered as chance constraints. Moreover a Bender’s decomposition algorithm is utilized to solve the proposed model. In order to evaluate the performance of the proposed model, the results of this algorithm are compared to those of Cplex solver. The comparison shows that Cplex solver can solves small size problems but the Bender’s decomposition algorithm is capable of solving problems of large scale as well as small ones.
Multi-objective hub location problem
Two-stage stochastic programming
Chance constraint
Bender’s decomposition algorithm
2014
09
23
243
255
https://aie.ut.ac.ir/article_52917_6a4b0d3ecaa69303c0a1e13c909b64b6.pdf
Advances in Industrial Engineering
J. Ind. Eng.
2014
48
2
Developing a Product Recommender System: Designing a Hybrid Model Using Data Mining Techniques
Abbas
Keramati
Roshanak
Khaleghi
The rapid growth of World Wide Web has affected the nature of interactions between customers and companies enormously. One significant consequence of this phenomenon is definitely the emergence and development of e-commerce websites and online stores all over the web. In spite of its great benefits, online shopping could turn into a complicated procedure from the customer point of view. In most cases, online shoppers are faced with overload of information related different products and services; as a result, deciding which products or services best fit their needs, may become a difficult or even a time consuming process. Recommender systems help online shoppers handle the information overload problem by offering products or services in accordance with their preferences. The application of recommender systems, as a part of one-to-one marketing campaigns, would facilitate the product selection process, provide more customer satisfaction and could eventually increase the sales of e-commerce websites.
This paper develops a product recommender system for the users of an online retail store by using data mining techniques. First, customers are clustered according to their “RFM” values considering their relative preferences over different product categories by means of “k-means” algorithm. Then, by applying a two-phase recommendation methodology which is based on a hybrid of “association rule mining” and “collaborative filtering” techniques, the system offers the list of recommendations to target customers at two different levels of product taxonomy, respectively “product categories” and “product items”. The experimental results show that, by alleviating data Sparsity and scalability limitations, the proposed recommender model has a better performance compared to some other similar models such as models which are developed based on the conventional collaborative filtering technique.
The results of this research could be effectively used to accomplish the objectives of one-to-one marketing campaigns and develop personalized product recommendation strategies for different customer segments of E-commerce websites regarding their lifetime value.
Clustering
Collaborative Filtering (CF)
Association Rule Mining (ARM)
Customer Lifetime Value (CLV)
Data Mining
2014
09
23
257
280
https://aie.ut.ac.ir/article_52918_3561b4ed8a58c6451bf12ff4f35ae4d9.pdf
Advances in Industrial Engineering
J. Ind. Eng.
2014
48
2
Designing an Expert System for Management of Crowding and Overcrowding in Emergency Departments
Sara
Hashemi
Ali
Shokri
MohammadReza
Amin Naseri
Hossein
Akbaripour
Providing service for patients in a rapid and efficient manner is one of the main issues in concern to Emergency Department (ED). Due to the imbalance between needs and the capacity of providing service, ED faces an emergency situation. In this paper, through the use of information gathered from related literature, an Expert System (ES) has been designed in order to detect ED crowding and overcrowding and provide appropriate solutions in order to return to a normal situation. In relation to this matter, National Emergency Department Overcrowding Scale (NEDOCS) has been used as an indicator. According to the value of NEDOCS the status of ED can be categorized in five groups consisting of normal, crowded, overcrowded, dangerous and disastrous classes. Furthermore, based on the situation of ED and in accordance to the related literature, proper solutions are provided by the proposed ES in order to overcome the adverse status. Developed ES consisting of 30 rules provides the mentioned solutions based on interactions with users, referral to knowledge base and necessary inferences via user interface. Results of applying the proposed ES indicate 81 percent compatibility between solutions provided by the ES and those proposed by ED’s experts.
Emergency department
Crowding and overcrowding
NEDOCS
solutions
Expert system
2014
09
23
281
292
https://aie.ut.ac.ir/article_52919_abfce089ca464223622130a1827f3962.pdf
Advances in Industrial Engineering
J. Ind. Eng.
2014
48
2
English Abstracts
2014
09
23
1
6
https://aie.ut.ac.ir/article_53198_548cf6f32cfeb6b520a82fe9e9428d34.pdf