Station importance evaluation in dynamic bike-sharing rebalancing optimization using an entropy-based TOPSIS approach
As an eco-friendly travel mode, bike-sharing has prevailed around the world. However, the
systems are imbalanced due to the asymmetric spatial and temporal distribution of user …
systems are imbalanced due to the asymmetric spatial and temporal distribution of user …
[引用][C] Station Importance Evaluation in Dynamic Bike-Sharing Rebalancing Optimization Using an Entropy-Based TOPSIS Approach
M He, X Ma, Y Jin - IEEE Access, 2021 - ui.adsabs.harvard.edu
Station Importance Evaluation in Dynamic Bike-Sharing Rebalancing Optimization Using an
Entropy-Based TOPSIS Approach - NASA/ADS Now on home page ads icon ads Enable full …
Entropy-Based TOPSIS Approach - NASA/ADS Now on home page ads icon ads Enable full …
[PDF][PDF] Station Importance Evaluation in Dynamic Bike-Sharing Rebalancing Optimization Using an Entropy-Based TOPSIS Approach
M HE, X MA, Y JIN - scholar.archive.org
As an eco-friendly travel mode, bike-sharing has prevailed around the world. However, the
systems are imbalanced due to the asymmetric spatial and temporal distribution of user …
systems are imbalanced due to the asymmetric spatial and temporal distribution of user …
[PDF][PDF] Station Importance Evaluation in Dynamic Bike-Sharing Rebalancing Optimization Using an Entropy-Based TOPSIS Approach
M HE, X MA, Y JIN - academia.edu
As an eco-friendly travel mode, bike-sharing has prevailed around the world. However, the
systems are imbalanced due to the asymmetric spatial and temporal distribution of user …
systems are imbalanced due to the asymmetric spatial and temporal distribution of user …
Station Importance Evaluation in Dynamic Bike-Sharing Rebalancing Optimization Using an Entropy-Based TOPSIS Approach
M He, X Ma, Y Jin - IEEE Access, 2021 - diva-portal.org
As an eco-friendly travel mode, bike-sharing has prevailed around the world. However, the
systems are imbalanced due to the asymmetric spatial and temporal distribution of user …
systems are imbalanced due to the asymmetric spatial and temporal distribution of user …
