Search results for " TOPSIS"

showing 7 items of 17 documents

A combined interval-valued ELECTRE TRI and TOPSIS approach for solving the storage location assignment problem

2019

Abstract Efficiency and effectiveness of logistic activities, in general, and of distribution networks, in particular, are largely influenced by the way warehouses operate as nodes of these networks. In recent years, warehouse management has undergone major changes due to the increase of e-commerce and competition in time-reduction. Despite that, logistic costs of warehouse processes (e.g. receiving, storage, order picking and shipping, etc.) are still often high. Referring to the order picking process, related activities may be optimized by a proper assignment of products to storage locations. In the literature, this problem is known as Storage Location Assignment Problem (SLAP). Due to th…

Order picking021103 operations researchGeneral Computer ScienceOperations researchComputer scienceProcess (engineering)Random assignment0211 other engineering and technologiesGeneral EngineeringTOPSIS02 engineering and technologyInterval (mathematics)Interval valuedWarehouse managementInterval-valued ELECTRE TRI; Interval-valued TOPSIS; Storage location assignment problem; Warehouse managementSettore ING-IND/17 - Impianti Industriali Meccanici0202 electrical engineering electronic engineering information engineering020201 artificial intelligence & image processingStorage location assignment problemELECTREAssignment problemInterval-valued TOPSISInterval-valued ELECTRE TRI
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Evaluation of routing policies using an interval-valued TOPSIS approach for the allocation rules

2021

Abstract The success of warehouse management in a supply chain widely depends on an efficient and effective retrieve of customer orders, which is known as the picking process. This paper investigates various routing policies of pickers under two different allocation methods of items in a warehouse of fixed layout, and evaluates their performance in terms of the resulting travel distance by means of a simulation approach. The allocation strategies taken into account are the random storage and a multi-criteria approach, called Interval-Value TOPSIS (IV-T), which is expressively proposed in this paper as a new way to solve the storage allocation problem of items in a warehouse. Because of the …

Random allocationMeasure (data warehouse)021103 operations researchGeneral Computer ScienceOperations researchProcess (engineering)Warehouse managementComputer scienceInterval-value TOPSIS; Picking; Simulation; Storage allocation; warehouse ManagementSupply chain0211 other engineering and technologiesGeneral EngineeringTOPSISStorage allocation02 engineering and technologyPickingInterval valued0202 electrical engineering electronic engineering information engineeringInterval-value TOPSIS020201 artificial intelligence & image processingRouting (electronic design automation)warehouse ManagementSimulation
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A multi-decision makers approach to select the maintenance plan for a multi-component system.

2013

multi-criteria group decision maintenance plan AHP TOPSIS
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DINESERV along with fuzzy hierarchical TOPSIS to support the best practices observation and service quality improvement in the restaurant context

2019

Abstract The present work proposes a new Multi-Criteria-Decision-Analysis (MCDA)-based approach integrating the DINESERV model along with the hierarchical TOPSIS method as measurement tool for evaluating quality in the restaurant services context. More in detail, on the basis of the DINESERV theoretical framework of the restaurant service quality, hierarchical TOPSIS is applied to compare quality of restaurant services. Actually, due to the prioritization process of hierarchical TOPSIS, investigated services providers are consistently and effectively assessed against criteria and sub-criteria of DINESERV, so allowing the identification of both best practices and weaknesses of delivered serv…

Service quality021103 operations researchProcess managementGeneral Computer ScienceComputer sciencemedia_common.quotation_subjectFuzzy set0211 other engineering and technologiesGeneral EngineeringContext (language use)TOPSIS02 engineering and technologyMultiple-criteria decision analysisFuzzy logicIdentification (information)0202 electrical engineering electronic engineering information engineering020201 artificial intelligence & image processingQuality (business)Restaurant service quality Multi criteria decision analysis DINESERV Hierarchical TOPSIS Fuzzy set theorySettore ING-IND/16 - Tecnologie E Sistemi Di Lavorazionemedia_common
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Application of the fuzzy TOPSIS method in management of food supply chain = Zastosowanie rozmytej metody TOPSIS w zarządzaniu łańcuchem dostaw żywnoś…

2019

W pracy przedstawiono wielokryterialną metodę podejmowania decyzji: rozmytą metodę TOPSIS. Jest to alternatywa dla metod AHP, TOPSIS, ELECTRE lub PROMETHEE. W pracy przedstawiono możliwość zastosowania rozmytej metody TOPSIS w zarządzaniu łańcuchem dostaw żywności (FSCM). W tym celu przedstawiono krótki przegląd literatury. Następnie przedstawiono rozmytą metodę TOPSIS, na końcu artykułu pokazano możliwość zastosowania metody do rozwiązania problemu.

food supply chainrozmyta metoda TOPSISłańcuch dostaw żywnościfuzzy TOPSIS methodzarządzaniemanagement
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Clean Agent Selection Approached by Fuzzy TOPSIS Decision-Making Method

2008

Abstract. It is well known that halons are ozone-depleting substances and their release into the atmosphere has contributed in the last decades to the reduction in the ozone layer. In consequence to the Montreal Protocol, an international agreement designed to gradually eliminate the use of such substances, fire protection industry researchers faced the challenge of finding effective solutions to replace halon extinguishers. This research aims to provide a method to support the decision maker in the selection of the most suitable extinguisher substance for a specific application. According to such framework, a set of quantitative and qualitative criteria has been established in the decision…

topsis decision makingEngineeringOperations researchbusiness.industryFuzzy topsisAnalytic hierarchy processVaguenessTOPSISFuzzy logicSet (abstract data type)Montreal ProtocolGeneral Materials ScienceSafety Risk Reliability and QualitybusinessSelection (genetic algorithm)
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Combined fuzzy TOPSIS and AHP-based methodology for the prioritization of maintenance key performance indicators: Application to an oil refinery plant

2017

A Maintenance Performance Measurement model based on the use of Maintenance Key Performance Indicators (MKPIs) is proposed in the present paper. Referring to a specific industrial context, a multi-level hierarchical structure is firstly designed to highlight the most meaningful perspectives which affect the maintenance performance. Then, MKPIs selected from the literature or properly formulated to detail some particular perspective of the investigated maintenance process are assigned to the hierarchical framework and prioritized by a Fuzzy Technique for Order of Preference by Similarity to Ideal Solution (FTOPSIS) and Analytic Hierarchy Process (AHP)-based approach.

Keywords-maintenance key performance indicator0209 industrial biotechnologyOperations researchAHPComputer scienceProcess (engineering)Analytic hierarchy processContext (language use)prioritization02 engineering and technologyIdeal solutionMaintenance engineeringFuzzy logicfuzzy TOPSIS020901 industrial engineering & automation0202 electrical engineering electronic engineering information engineering020201 artificial intelligence & image processingPerformance measurementPerformance indicator2017 2nd International Conference on System Reliability and Safety (ICSRS)
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