Smart City Gnosys

Smart city article details

Title A Decision-Making Approach Based On Topsis Method For Ranking Smart Cities In The Context Of Urban Energy
ID_Doc 1309
Authors Hajduk, S; Jelonek, D
Year 2021
Published ENERGIES, 14, 9
DOI http://dx.doi.org/10.3390/en14092691
Abstract This paper presents the use of multi-criteria decision-making (MCDM) for the evaluation of smart cities. During the development of the method, the importance of the decision-making approach in the linear ordering of cities was presented. The method of using the Technique for Order of Preference by Similarity to Ideal Solution (TOPSIS) was proposed for the preparation of ranking. The method was verified by the application in the measurement of energy performance in smart cities. The authors conducted a literature review of research papers related to urban energy and MCDM published in the period from 2010 to 2020. The paper uses data from the World Council on City Data (WCCD). The research conducted allowed for the identification of the most popular MCDM techniques in the field of urban energy such as TOPSIS, AHP and DEA. The TOPSIS technique was used to organize and group the analyzed cities. Porto took the top position, whereas Buenos Aries was the last.
Author Keywords urban energy; smart city; ISO 37120′ s indicators; multi-criteria decision making method


Similar Articles

Id Similarity Authors Title Published
38173 View0.949Hajduk, SMulti-Criteria Analysis Of Smart Cities On The Example Of The Polish CitiesRESOURCES-BASEL, 10, 5 (2021)
24883 View0.885Otay İ.; Çevik Onar S.; Öztayşi B.; Kahraman C.Evaluation Of Sustainable Energy Systems In Smart Cities Using A Multi-Expert Pythagorean Fuzzy Bwm & Topsis MethodologyExpert Systems with Applications, 250 (2024)
24950 View0.882Zhang Y.; Zhang Y.; Zhang H.; Zhang Y.Evaluation On New First-Tier Smart Cities In China Based On Entropy Method And TopsisEcological Indicators, 145 (2022)
49649 View0.868Aragao, FV; Chiroli, DMD; Zola, FC; Aragao, EV; Marinho, LHN; Correa, ALC; Colmenero, JCSmart Cities Maturity Model-A Multicriteria ApproachSUSTAINABILITY, 15, 8 (2023)
30496 View0.867Hong X.; Fan X.; Xin Y.Implementation And Development Potential Assessment Of Smart City Policies In China Based On Improved Topsis Method And Sparrow Search AlgorithmProceedings of the 4th Asia-Pacific Artificial Intelligence and Big Data Forum, AIBDF 2024 (2025)
43405 View0.866Aragão F.V.; Gomes P.F.D.O.; Chiroli D.D.G.; Zola F.C.; Rocha Loures E.D.F.; Santos E.A.P.; Colmenero J.C.Projects Aimed At Smart Cities: A Hybrid Mcda Evaluation ApproachTechnology Analysis and Strategic Management, 35, 10 (2023)
2168 View0.865Demircan B.G.; Yetilmezsoy K.A Hybrid Fuzzy Ahp-Topsis Approach For Implementation Of Smart Sustainable Waste Management StrategiesSustainability (Switzerland), 15, 8 (2023)
60600 View0.86De Genaro Chiroli D.M.; Solek E.A.B.; Oliveira R.S.; Barboza B.M.L.; De Campos R.P.; Kovaleski J.L.; Tebecherani S.M.; Trojan F.Using Multi-Criteria Analysis For Smart City AssessmentCidades, 44 (2022)
38176 View0.86Ye F.; Chen Y.; Li L.; Li Y.; Yin Y.Multi-Criteria Decision-Making Models For Smart City Ranking: Evidence From The Pearl River Delta Region, ChinaCities, 128 (2022)
2135 View0.857Kisnu Darmawan A.; Siahaan D.O.; Susanto T.D.; Hoiriyah; Umam B.A.; Yulianto T.; Walid M.; Puspasari B.D.; Hidayanto A.N.A Hybrid Approach With Balanced Score Card And Fuzzy Topsis Method For Identifying Critical Factors Affecting Smart Regency Development2020 5th International Conference on Informatics and Computing, ICIC 2020 (2020)