ZERO-CO2 PUBLIC TRANSPORT: FROM VEHICLE TO SYSTEM OPTIMIZATION
Version
Published
Date Issued
2020-11-21
Author(s)
Type
Conference Paper
Language
English
Abstract
Learning Trolley System - Energy, Battery, Bus Route-Cockpit:
An enhanced predictive learning energy management system in combination with battery’s operation strategies that minimize degradation result in optimized and extended grid free bus routes that are spatially visualized in a decision-supporting cockpit for the procurement process. The cockpit shows the optimized bus routes, passenger capacities, utilization and urban density.
An enhanced predictive learning energy management system in combination with battery’s operation strategies that minimize degradation result in optimized and extended grid free bus routes that are spatially visualized in a decision-supporting cockpit for the procurement process. The cockpit shows the optimized bus routes, passenger capacities, utilization and urban density.
Subjects
NA Architecture
TD Environmental technology. Sanitary engineering
TK Electrical engineering. Electronics Nuclear engineering
TL Motor vehicles. Aeronautics. Astronautics
Conference
11. Energieforschungskonferenz Bundesamt für Energie BFE CORE
Submitter
HuberJ
Citation apa
Huber, J., Jost, M., & Caliandro, P. (2020). ZERO-CO2 PUBLIC TRANSPORT: FROM VEHICLE TO SYSTEM OPTIMIZATION. 11. Energieforschungskonferenz Bundesamt für Energie BFE CORE. https://doi.org/10.24451/arbor.13488
Note
Die Erlaubnis, diese Datei im ARBOR-Repository zu veröffentlichen, wurde eingeholt
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