2018-01-20T05:44:24Z
http://www.qjie.ir/?_action=export&rf=summon&issue=36
Journal of Optimization in Industrial Engineering
JOIE
2251-9904
2251-9904
2016
9
20
Monitoring process variability: a hybrid Taguchi loss and multiobjective genetic algorithm approach
Heng-Soon
Gan
Abdul Sattar
Safaei
The common consideration on economic model is that there is knowledge about the risk of occurrence of an assignable cause and the various cost parameters that does not always adequately describe what happens in practice. Hence, there is a need for more realistic assumptions to be incorporated. In order to reduce cost penalties for not knowing the true values of some parameters, this paper aims to develop a bi-objective model of the economic-statistical design of the S control chart to minimize the mean hourly loss cost while minimizing out-of-control average run length and maintaining reasonable in-control average run length considering Taguchi loss function. The purpose of Taguchi loss function is to reflect the economic loss associated with variation in, and deviations from, the process target or the target value of a product characteristic. In contrast to the existing modeling approaches, the proposed model and given Pareto-optimal solution sets enables the chart designer to obtain solutions that is effective even for control chart design problems in uncertain environments. A comparison study with a traditional economic design model reveals that the proposed chart presents a better approach for quality system costs and the power of control chart in detecting the assignable cause.
Economic-Statistical design
Taguchi loss function
NSGA-II algorithm
Process Variability
immeasurable costs
2016
09
25
1
8
http://www.qjie.ir/article_245_59e50e4617342a3271d2ba4d7428b99c.pdf
Journal of Optimization in Industrial Engineering
JOIE
2251-9904
2251-9904
2016
9
20
A Multi-Objective Particle Swarm Optimization for Mixed-Model Assembly Line Balancing with Different Skilled Workers
Parviz
Fattahi
Parvaneh
Samouei
This paper presents a multi-objective Particle Swarm Optimization (PSO) algorithm for worker assignment and mixed-model assembly line balancing problem when task times depend on the worker’s skill level. The objectives of this model are minimization of the number of stations (equivalent to the maximization of the weighted line efficiency), minimization of the weighted smoothness index and minimization of the total human cost for a given cycle time. In addition, the performance of proposed algorithm is evaluated against a set of test problems with different sizes. Also, its efficiency is compared with a Simulated Annealing algorithm (SA) in terms of the quality of objective functions. Results show the proposed algorithm performs well, and it can be used as an efficient algorithm. This paper presents a multi-objective Particle Swarm Optimization (PSO) algorithm for worker assignment and mixed-model assembly line balancing problem when task times depend on the worker’s skill level. The objectives of this model are minimization of the number of stations (equivalent to the maximization of the weighted line efficiency), minimization of the weighted smoothness index and minimization of the total human cost for a given cycle time. In addition, the performance of proposed algorithm is evaluated against a set of test problems with different sizes. Also, its efficiency is compared with a Simulated Annealing algorithm (SA) in terms of the quality of objective functions. Results show the proposed algorithm performs well, and it can be used as an efficient algorithm
Mixed-model assembly line balancing
multi-objective optimization
different skilled workers
particle swarm optimization
simulated annealing
2016
09
25
9
18
http://www.qjie.ir/article_246_f4a11b067ffa0ea046885a8261301508.pdf
Journal of Optimization in Industrial Engineering
JOIE
2251-9904
2251-9904
2016
9
20
Fuzzy Programming for Parallel Machines Scheduling:
Minimizing Weighted Tardiness/Earliness and Flowtime through Genetic Algorithm
Mohammad
Asghari
Samaneh
Nezhadali
Appropriate scheduling and sequencing of tasks on machines is one of the basic and significant problems that a shop or a factory manager encounters with it, this is why in recent decades extensive researches have been done on scheduling issues. A type of scheduling problems is just-in-time (JIT) scheduling and in this area, motivated by JIT manufacturing, this study investigates a mathematical model for appraising a multi-objective programing that minimize total weighted tardiness, earliness and total flowtime with fuzzy parameters on parallel machines, simultaneously with respect to the impact of machine deterioration. Besides, in this paper is attempted to present a defuzzification approach and a heuristic method based genetic algorithm (GA) to solve the proposed model. Finally, several dominance properties of optimal solutions are demonstrated in comparison with the results of a state-of-the-art commercial solver and the simulated annealing method that is followed by illustrating some instances for indicating validity and efficiency of the method.
Mathematical optimization
Fuzzy multi-objective model
Parallel machines scheduling
Weighted tardiness/earliness
Genetic Algorithm
2016
09
25
19
30
http://www.qjie.ir/article_247_f1610a55d0136f8ca528700e3c93a8b4.pdf
Journal of Optimization in Industrial Engineering
JOIE
2251-9904
2251-9904
2016
9
20
Performance Improvement through a Marshaling Yard Storage Area in a Container Port Using Optimization via Simulation Technique (Case Study at Shahid Rajaee Container Port)
Mohammad Reza
Ghanbari
Parham
Azimi
Container ports have been faced under increasing development during last 10 years. In such systems, the container transportation system has the most important effect on the total system. Therefore, there is a continuous need for the optimal use of equipment and facilities in the ports. Regarding the several complicated structure and activities in container ports, this paper evaluates and compares two different storage strategies for storing containers in the yard. To do so and covering all actual stochastic events occur in the system, a simulation model of the real system was developed using loading and unloading norms as important criteria to evaluate the performance of Shahid Rajaee container port. By replicating the simulation model and considering the two strategies, it has been shown that using a marshaling yard policy has a significant effect on the performance level of the port which leads to cost reductions.
Optimization via Simulation
Conyainer Port
Marshalling Yard
2016
09
25
31
40
http://www.qjie.ir/article_248_8d708235dae6d57176762a50c6b61996.pdf
Journal of Optimization in Industrial Engineering
JOIE
2251-9904
2251-9904
2016
9
20
Cell forming and cell balancing of virtual cellular manufacturing systems with alternative processing routes using genetic algorithm
Adib
Hosseini
Mohammad Mahdi
Paydar
Iraj
Mahdavi
Javid
Jouzdani
Cellular manufacturing (CM) is one of the most important subfields in the design of manufacturing systems and as a recently emerged field of study and practice, virtual cellular manufacturing (VCM) inherits the importance from CM. One type of VCM problems is VCM with alternative processing routes from which the route for processing each part should be selected. In this research, a bi-objective mathematical programming model is designed in order to obtain optimal routing of parts, the layout of machines and the assignment of cells to locations and to minimize the production costs and to balance the cell loads. The proposed mathematical model is solved by multi-choice goal programming (MCGP). Since CM models are NP-Hard, a genetic algorithm (GA) is utilized to solve the model for large-sized problem instances and the results obtained from both methods are compared. Finally, a conclusion is made and some visions for future works are offered.Cellular manufacturing (CM) is one of the most important subfields in the design of manufacturing systems and as a recently emerged field of study and practice, virtual cellular manufacturing (VCM) inherits the importance from CM. One type of VCM problems is VCM with alternative processing routes from which the route for processing each part should be selected. In this research, a bi-objective mathematical programming model is designed in order to obtain optimal routing of parts, the layout of machines and the assignment of cells to locations and to minimize the production costs and to balance the cell loads. The proposed mathematical model is solved by multi-choice goal programming (MCGP). Since CM models are NP-Hard, a genetic algorithm (GA) is utilized to solve the model for large-sized problem instances and the results obtained from both methods are compared. Finally, a conclusion is made and some visions for future works are offered.
Virtual Cellular Manufacturing
Mathematical Programming
Multi-Choice Goal Programming
Genetic Algorithm
2016
09
25
41
51
http://www.qjie.ir/article_249_0159345102bf0e6671885dc97088c14b.pdf
Journal of Optimization in Industrial Engineering
JOIE
2251-9904
2251-9904
2016
9
20
Fuzzy Multi-Objective Linear Programming for Project Management Decision under Uncertain Environment with AHP Based Weighted Average Method
Md. Sanowar
Hossain
Shahed
Mahmud
Md. Mosharraf
Hossain
Smooth implementation and controlling conflicting goals of a project with the usage of all related resources through organization is inherently a complex task to management. At the same time deterministic models are never efficient in practical project management (PM) decision problems because the related parameters are frequently fuzzy in nature. The project execution time is a major concern of the involved stakeholders (client, contractors and consultants). For optimization of total project cost through time control, here crashing cost is considered as a critical factor in project management. The proposed approach aims to formulate a multi objective linear programming model to simultaneously minimize total project cost, completion time and crashing cost with reference to direct, indirect cost in the framework of the satisfaction level of decision maker with fuzzy goal and fuzzy cost coefficients.. To make such problems realistic, triangular fuzzy numbers and the concept of minimum accepted level method are employed to formulate the problem. The proposed model leads decision makers to choose the desired compromise solution under different risk levels and the project optimization problems have been solved under multiple uncertainty conditions. The Analytical Hierarchy Process is used to rank multiple objectives to make the problem realistic for the respective case. Here minimum operator and AHP based weighted average operator method is used to solved the model and the solution is obtained by using LINGO software
Project Management
Multi-objective linear programming
Minimum operator
Analytical Hierarchy Process
2016
09
25
53
60
http://www.qjie.ir/article_250_11a34db7387fa23c2ffeea83d2ecefa3.pdf
Journal of Optimization in Industrial Engineering
JOIE
2251-9904
2251-9904
2016
9
20
A hybrid intuitionistic fuzzy multi-criteria group decision making approach for supplier selection
Ahmad
Makui
Mohammad
Gholamian
Erfan
Mohammadi
Due to the increasing competition of globalization, selection of the most appropriate supplier is one of the key factors for asupply chain management’s success. Due to conflicting evaluations and insufficient information about the criteria, Intuitionisticfuzzy sets (IFSs) considered as animpressive tool and utilized to specify the relative importance of the criteria. The aim of this paper is to develop a new approach for solving the decision making processes. Thusan intuitionistic fuzzy multi-criteria group decision making approach is proposed. Interval-valued intuitionistic fuzzy ordered weighted aggregation (IIFOWA) is utilized to aggregate individual opinions of decision makers into a group opinion. A linear programming model is used to obtain the weights of the criteria.Then acombined approach based onGRAand TOPSIS method is introduced and applied to the ranking and selection of the alternatives. Finally a numerical example for supplier selection is given to illustrate the feasibility and effectiveness of the proposed method. A combined method based on GRA and TOPSIS associated with intuitionistic fuzzy set has enormous chance of success for multi-criteria decision-making problems due to containing vague perception of decision makers’ opinions. Therefore, in future, intuitionistic fuzzy set can be used for dealing with uncertainty in multi-criteria decision-making problems such as project selection, manufacturing systems, pattern recognition, medical diagnosis and many other areas of management decision problems.
Multi-Criteria Group Decision Making
supplier selection
Interval-Valued Intuitionistic Fuzzy Set
TOPSIS Method
GRA Method
2016
09
25
61
73
http://www.qjie.ir/article_251_09c395054823216ee137010f8bda723a.pdf
Journal of Optimization in Industrial Engineering
JOIE
2251-9904
2251-9904
2016
9
20
A New Dynamic Random Fuzzy DEA Model to Predict Performance of Decision Making Units
Ali
Yaghoubi
Maghsoud
Amiri
Azamdokht
Safi Samghabadi
Data envelopment analysis (DEA) is a methodology for measuring the relative efficiency of decision making units (DMUs) which â€Žconsume the same types of inputs and producing the same types of outputs. Believing that future planning and predicting the â€Žefficiency are very important for DMUs, this paper first presents a new dynamic random fuzzy DEA model (DRF-DEA) with â€Žcommon weights (using multi objective DEA approach) to predict the efficiency of DMUs under mean chance constraints and â€Žexpected values of the objective functions. In the initial proposedâ€ â€DRF-DEA model, the inputs and outputs are assumed to be â€Žcharacterized by random triangular fuzzy variables with normal distribution, in which data are changing sequentially. Under this â€Žassumption, the solution process is very complex. So we then convert the initial proposed DRF-DEA model to its equivalent multi-â€Žobjective stochastic programming, in which the constraints contain the standard normal distribution functions, and the objective â€Žfunctions are the expected values of functions of normal random variables. In order to improve in computational time, we then â€Žconvert the equivalent multi-objective stochastic model to one objective stochastic model with using fuzzy multiple objectives â€Žprogramming approach. To solve it, we design a new hybrid algorithm by integrating Monte Carlo (MC) simulation and Genetic â€ŽAlgorithm (GA). Since no benchmark is available in the literature, one practical example will be presented. The computational results â€Žshow that our hybrid algorithm outperforms the hybrid GA algorithm which was proposed by Qin and Liu (2010) in terms of â€Žruntime and solution quality. â€Ž
Stochastic Data envelopment analysis
Dynamic programming
random fuzzy variable
Monte Carlo simulation
Genetic Algorithm
2016
09
25
75
90
http://www.qjie.ir/article_252_f499261f1b44c7e8bb765919ba8765a3.pdf
Journal of Optimization in Industrial Engineering
JOIE
2251-9904
2251-9904
2016
9
20
A Compromise Decision-making Model for Multi-objective Large-scale Programming Problems with a Block Angular Structure under Uncertainty
behnam
vahdani
meghdad
Salimi
behrouz
Afshar najafi
This paper proposes a compromise model, based on the technique for order preference through similarity ideal solution (TOPSIS) methodology, to solve the multi-objective large-scale linear programming (MOLSLP) problems with block angular structure involving fuzzy parameters. The problem involves fuzzy parameters in the objective functions and constraints. This compromise programming method is based on the assumption that the optimal alternative is closer to fuzzy positive ideal solution (FPIS) and at the same time, farther from fuzzy negative ideal solution (FNIS).An aggregating function that is developed from LP- metric is based on the particular measure of ‘‘closeness” to the ‘‘ideal” solution.An efficient distance measurement is utilized to calculate positive and negative ideal solutions. The solution process is as follows: first, the decomposition algorithm is used to divide the large-dimensional objective space into a two-dimensional space. A multi-objective identical crisp linear programming is derived from the fuzzy linear model for solving the problem. Then, a single-objective large-scale linear programming problem is solved to find the optimal solution. Finally, to illustrate the proposed method, an illustrative example is provided.
TOPSIS
MCDM
MODM
Multi-Objective Large-Scale Linear Programming (MOLSLP)
Block angular structure
2016
09
25
91
102
http://www.qjie.ir/article_253_bcfd7bc3787fcf8c7ea7e25122d1e1f8.pdf
Journal of Optimization in Industrial Engineering
JOIE
2251-9904
2251-9904
2016
9
20
Efficiency evaluation of wheat farming: a network data envelopment analysis approach
Reza
Kazemi Matin
Roza
Azizi
Traditional data envelopment analysis (DEA) models deal with measurement of relative efficiency of decision making units (DMUs) in which multiple-inputs consumed to produce multiple-outputs. One of the drawbacks of these models is neglecting internal processes of each system, which may have intermediate products and/or independent inputs and/or outputs. In this paper some methods which are usable for network systems are briefly reviewed. A new unified model is also introduced which can be easily applied for performance measurement of all type of network production process. As an application of network DEA models, performance evaluation of wheat production in Iran provinces is considered and the results are compared.Traditional data envelopment analysis (DEA) models deal with measurement of relative efficiency of decision making units (DMUs) in which multiple-inputs consumed to produce multiple-outputs. One of the drawbacks of these models is neglecting internal processes of each system, which may have intermediate products and/or independent inputs and/or outputs. In this paper some methods which are usable for network systems are briefly reviewed. A new unified model is also introduced which can be easily applied for performance measurement of all type of network production process. As an application of network DEA models, performance evaluation of wheat production in Iran provinces is considered and the results are compared.
Data envelopment analysis
Network DEA
Efficiency
Wheat production
2016
09
25
103
109
http://www.qjie.ir/article_254_24b29e7bf87a13691581d2c69fcdc8bb.pdf