Selection of the Best Location for RFID Wagon Monitoring Device on Serbian Railways Based on FUCOM-TOPSIS Method and Fuzzy Set Theory

“…The FUCOM (Full Consistency Method) method is intended for determining the weight coefficients of the evaluation criteria. The method was first presented by Pamučar et al [36]; since then it has been applied in a large number of papers for solving various problems, such as: ▪ landfill site selection, together with the CODAS method [37], ▪ assessment of critical success factors for continuous academic quality assurance and accreditation, in the model with fuzzy AHP method [38], ▪ evaluation of the provisional sizing process in the clothing industry, with the fuzzy PIPRECIA method [39], ▪ selection of the best solution for business balance of the passenger railway operator, as a part of the validation test with the fuzzy AHP method [40], ▪ determination of macro location for railway network, in the model with the fuzzy TOPSIS method [41], ▪ selection of a distribution channel, in combination with the MARCOS method [42], ▪ solving the case study in the rubber glove industry, used in a hybrid model with the VIKOR method [43], ▪ for the purpose of assessing human resources, on which the overall efficiency of the enterprise depends, together with the MARCOS method [44], ▪ mineral potential mapping in greenfields, in the model with the MOORA and MOOSRA method [45], ▪ selection of vehicles with automatic guidance (AGVs), in combination with the R-ROV (Rough Range of Value) method [46], ▪ improvement of service quality measurement in the hybrid Delphi-FUCOM-SERVQUAL model [47], ▪ selection of a terrain vehicle for equipping military units, through the validation test of the AHP-DEA model, with the BWM method [48], ▪ selection of a sustainable supplier in a construction company, with the COPRAS method, while for the validation of the results the ARAS, WASPAS, SAW and MABAC methods were used in combination with rough numbers [49], ▪ evaluation of the sustainable performance of suppliers, with the MAIRCA method [50], ▪ selection of a location for a textile manufacturing facility, in combination with the GIS [51], and, ▪ selection of a fighter aircraft, with the ARAS method [52]. In addition to the classic FUCOM method, a fuzzified version of this method was used for solving practical problems, such as:…”

D Numbers – Fucom – Fuzzy Rafsi Model for Selecting the Group of Construction Machines for Enabling Mobility

“…The FUCOM (Full Consistency Method) method is intended for determining the weight coefficients of the evaluation criteria. The method was first presented by Pamučar et al [36]; since then it has been applied in a large number of papers for solving various problems, such as: ▪ landfill site selection, together with the CODAS method [37], ▪ assessment of critical success factors for continuous academic quality assurance and accreditation, in the model with fuzzy AHP method [38], ▪ evaluation of the provisional sizing process in the clothing industry, with the fuzzy PIPRECIA method [39], ▪ selection of the best solution for business balance of the passenger railway operator, as a part of the validation test with the fuzzy AHP method [40], ▪ determination of macro location for railway network, in the model with the fuzzy TOPSIS method [41], ▪ selection of a distribution channel, in combination with the MARCOS method [42], ▪ solving the case study in the rubber glove industry, used in a hybrid model with the VIKOR method [43], ▪ for the purpose of assessing human resources, on which the overall efficiency of the enterprise depends, together with the MARCOS method [44], ▪ mineral potential mapping in greenfields, in the model with the MOORA and MOOSRA method [45], ▪ selection of vehicles with automatic guidance (AGVs), in combination with the R-ROV (Rough Range of Value) method [46], ▪ improvement of service quality measurement in the hybrid Delphi-FUCOM-SERVQUAL model [47], ▪ selection of a terrain vehicle for equipping military units, through the validation test of the AHP-DEA model, with the BWM method [48], ▪ selection of a sustainable supplier in a construction company, with the COPRAS method, while for the validation of the results the ARAS, WASPAS, SAW and MABAC methods were used in combination with rough numbers [49], ▪ evaluation of the sustainable performance of suppliers, with the MAIRCA method [50], ▪ selection of a location for a textile manufacturing facility, in combination with the GIS [51], and, ▪ selection of a fighter aircraft, with the ARAS method [52]. In addition to the classic FUCOM method, a fuzzified version of this method was used for solving practical problems, such as:…”

D Numbers – Fucom – Fuzzy Rafsi Model for Selecting the Group of Construction Machines for Enabling Mobility

Evaluation of the Factors Affecting Personnel Selection with FUCOM Method: An Application in an Airline Company

FUCOM ve PROMETHEE Yöntemleri ile Ticari Araç Seçimi: Peyzaj Firmasında Bir Uygulama