Suitable computerized maintenance management system selection using grey group TOPSIS and fuzzy group VIKOR: A case study

Zare, A; Feylizadeh, Mohammad Reza; Mahmoudi, Amin; Liu, Sifeng

doi:10.5267/j.dsl.2018.3.002

Cited by 43 publications

(24 citation statements)

References 15 publications

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“…where represents the background of grey numbers and μ is the length of the background of grey numbers. (Li et al (2007), Zare et al (2018)):…”

Section: ⊗A ∈ [A A] a < Amentioning

confidence: 99%

Grey Best-Worst Method for Multiple Experts Multiple Criteria Decision Making Under Uncertainty

Mahmoudi¹,

Mi²,

Liao³

et al. 2020

Informatica

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In practice, the judgments of decision-makers are often uncertain and thus cannot be represented by accurate values. In this study, the opinions of decision-makers are collected based on grey linguistic variables and the data retains the grey nature throughout all the decision-making process. A grey best-worst method (GBWM) is developed for multiple experts multiple criteria decision-making problems that can employ grey linguistic variables as input data to cover uncertainty. An example is solved by the GBWM and then a sensitivity analysis is done to show the robustness of the method. Comparative analyses verify the validity and advantages of the GBWM.

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“…where represents the background of grey numbers and μ is the length of the background of grey numbers. (Li et al (2007), Zare et al (2018)):…”

Section: ⊗A ∈ [A A] a < Amentioning

confidence: 99%

Grey Best-Worst Method for Multiple Experts Multiple Criteria Decision Making Under Uncertainty

Mahmoudi¹,

Mi²,

Liao³

et al. 2020

Informatica

Self Cite

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“…Prasad and Chakraborty (2018) applied modified similarity-based method for cutting fluid selection. Zare et al (2018) implemented the grey group TOPSIS and fuzzy group VIKOR methods to choose an appropriate computerized maintenance software (CMMS) for a dairy company which was done based on 13 sub-criteria under 5 main criteria and finally the outcome results were compared. Biswas and Saha (2019) presented a paper, where a new MCDM technique is proposed for the selection of scooters and the results were compared with the outcomes obtained from TOPSIS and MABAC methods.…”

Section: Literature Reviewmentioning

confidence: 99%

Selecting the best mobile model by applying AHP-COPRAS and AHP-ARAS decision making methodology

Goswami¹,

Mitra²

2020

10.5267/j.ijdns

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The main objective of this research article is to select the best mobile model among various alternatives available on the market. For this analysis 10 alternative models from different brands are selected from different online shopping website having different specifications and ranging from low budget to medium budget in terms of price. For this selection purposes two multiple criteria decision making tools (MCDM) has been adopted i.e. Complex Proportional Assessment (COP-RAS) and Additive Ratio Assessment (ARAS). The selection process is done based on four important criteria i.e. price, internal storage, RAM and brand. The weightages of the criteria are calculated by using Analytic Hierarchy Process (AHP) and these weightages are further used in COPRAS and ARAS methods. Individual COPRAS and ARAS method is applied for the selection of the best mobile and the preference ranking order of the models are also proposed by each process. The proposed ranking order by both the methods are compared and it is found that the outcome results are more or less the same using both techniques but there is a slight change in ranking of the middle-order alternatives. Both processes give model 1 and model 4 as the best and the worst models respectively among 10 alternatives.

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“…Multi-criteria decision making methods are adopted when a decision is to be taken out of various conflicting criteria [24]; however, these are troublesome to use in machining area [25]. GRA can be successfully applied for prediction and decision making in a system with less or incomplete information [26][27][28][29][30]. Machining is one of such system, where this method can be applied to optimize its different variables for several quality targets simultaneously [31][32].…”

Section: Grey Relational Analysismentioning

confidence: 99%

Machining Performance of Aluminium 7075 Composite: A Grey Based Taguchi Concept

Das,

Routara*,

Nanda

et al. 2019

IJITEE

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Abstract: Irregular particulates of Silicon carbide (SiCp) augmented aluminium 7075 metal matrix composite (MMC) was processed by vortex route of stir casting. Homogeneous dispersion of the reinforcement was verified by metallurgical microscope. Machining performance of the synthesized MMC was investigated during turning, considering surface roughness, cutting temperature, tool flank wear and material removal rate as performance criteria. The chips formed during the turning trials were also analyzed. The machining quality targets were optimized simultaneously through grey relational analysis (GRA) based Taguchi method, which resulted that the optimal combination of parametric levels was 154 m.min -1 , 0.04 mm.rev -1 and 0.1 mm of cutting speed (V), feed (f) and cutting depth (d), respectively. Mathematical models were then generated for the individual responses using response surface method, followed by verification of their adequacy.

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Suitable computerized maintenance management system selection using grey group TOPSIS and fuzzy group VIKOR: A case study

Cited by 43 publications

References 15 publications

Grey Best-Worst Method for Multiple Experts Multiple Criteria Decision Making Under Uncertainty

Grey Best-Worst Method for Multiple Experts Multiple Criteria Decision Making Under Uncertainty

Selecting the best mobile model by applying AHP-COPRAS and AHP-ARAS decision making methodology

Machining Performance of Aluminium 7075 Composite: A Grey Based Taguchi Concept

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