Sustainable Transportation Systems Analysis using WASPAS MCDM Method

Abstract

In this form of analysis the WASPAS method is the most ideal solution Short-distance and negative-best The solution with the longest distance from the solution Determines, but the comparison of these distances Does not consider importance. From the result it is seen that Reliability is the first rank whereas is the Safety is having the lowest rank. Sustainable transportation systems are the need of modern times. There has been an unexpected growth in the number of transportation activities over years and the trend is expected to continue in the coming years. This has obviously associated environmental costs like air pollution, noise, etc. which is degrading the quality of life in modern cities. To cope with this crisis, municipal administrations are investing in sustainable transportation systems that are not only efficient, robust and economical but also friendly towards the environment. Sustainability has become an overarching concern for transportation policy and planning around the world. This article presents an approach for urban transport sustainability performance evaluation using fuzzy logic. This article presents a model for transport sustainability performance evaluation. Appropriate transport sustainability indicators were identified based on literature. Recently, sustainability has become a very important research area in transportation because of the dependencies between transportation, economic, and environmental systems. Alternative: Safety, Security, Reliability, Air pollutants, Noise. .Evaluation Preference: Cost benefits analysis optimization models, Life cycle analysis, Data analysis. WASPAS-Weighted Aggregated Sum Product Assessment. In this method from WASPAS in Sustainable Transportation Systems. From the result it is seen that Reliability and is the first rank whereas the Safety got is having the lowest rank.