Tourism trails connect destinations,points of interest,and travel-related businesses.By enhancing connectivity,these trails reduce travel time,allowing tourists to maximize their exploration of sites,leading to more e...Tourism trails connect destinations,points of interest,and travel-related businesses.By enhancing connectivity,these trails reduce travel time,allowing tourists to maximize their exploration of sites,leading to more efficient and satisfying travel experiences.The rising popularity of e-scooters in urban areas has highlighted the need to identify safe and accessible routes,particularly in cities where safety concerns have led to restrictions.Multi-Criteria Decision Analysis(MCDA)and Geographic Information System(GIS)network analysis can be employed to determine optimal paths by considering multiple criteria.This study focuses on finding an optimal street art trail for e-scooters in Bukit Bintang using Fuzzy-AHP(FAHP)and GIS.The objectives of this study are to identify the criteria of optimal pathway conditions for e-scooters and to develop a framework to find potential trails for escooters by using FAHPand GIS.FAHPwas used to compute criterionweights based on expert input,revealing Path Facility as themost critical factor(weight:0.495),followed by Slope(0.194),Traffic Speed(0.172),and Obstruction(0.139).These weights were integrated into a GIS-based network model,with the Travelling Salesperson Problem(TSP)method applied to identify the optimal e-scooter route.The resulting map showcases the ideal e-scooter trail connecting street art locations,alongside details on path conditions,street art sites,nearby train stations,and escooter rental stations.This methodology effectively combines FAHP and GIS to determine optimal routes,aiding authorities in improving e-scooter infrastructure.Additionally,the map can be integrated into e-scooter-sharing applications or displayed at key transportation hubs to guide riders.展开更多
文摘Tourism trails connect destinations,points of interest,and travel-related businesses.By enhancing connectivity,these trails reduce travel time,allowing tourists to maximize their exploration of sites,leading to more efficient and satisfying travel experiences.The rising popularity of e-scooters in urban areas has highlighted the need to identify safe and accessible routes,particularly in cities where safety concerns have led to restrictions.Multi-Criteria Decision Analysis(MCDA)and Geographic Information System(GIS)network analysis can be employed to determine optimal paths by considering multiple criteria.This study focuses on finding an optimal street art trail for e-scooters in Bukit Bintang using Fuzzy-AHP(FAHP)and GIS.The objectives of this study are to identify the criteria of optimal pathway conditions for e-scooters and to develop a framework to find potential trails for escooters by using FAHPand GIS.FAHPwas used to compute criterionweights based on expert input,revealing Path Facility as themost critical factor(weight:0.495),followed by Slope(0.194),Traffic Speed(0.172),and Obstruction(0.139).These weights were integrated into a GIS-based network model,with the Travelling Salesperson Problem(TSP)method applied to identify the optimal e-scooter route.The resulting map showcases the ideal e-scooter trail connecting street art locations,alongside details on path conditions,street art sites,nearby train stations,and escooter rental stations.This methodology effectively combines FAHP and GIS to determine optimal routes,aiding authorities in improving e-scooter infrastructure.Additionally,the map can be integrated into e-scooter-sharing applications or displayed at key transportation hubs to guide riders.
