The passenger extension of the TRANSP-0 system design framework
Dominik Ascher and Georg Hackenberg
2017 5th IEEE International Conference on Models and Technologies for Intelligent Transportation Systems (MT-ITS), pp. 256-261, 26 June 2017
Abstract
In recent years, potentially disruptive transportation paradigms such as mobility-on-demand, autonomous vehicles and the transportation electrification have seen increased attention for designing intelligent transportation systems (ITS). These paradigms represent unifying approaches in addressing sustainable alignment between transportation demand and supply in the context of rising world passenger transport energy use and increasing negative environmental impacts. It is crucial to establish integrated planning and control strategies for both transportation and power systems, as the aforementioned paradigms exert interrelated and concurrent effects on these systems. To evaluate future transportation and power system design options coherently and explore the potential effects of the aforementioned paradigms, in this work, we extend the design space of a formal system design framework for integrated …
BibTeX Citation
@INPROCEEDINGS{ascher2017the,
author={Dominik Ascher and Georg Hackenberg},
title={The passenger extension of the TRANSP-0 system design framework},
year={2017},
booktitle={2017 5th IEEE International Conference on Models and Technologies for Intelligent Transportation Systems (MT-ITS)},
pages={256-261},
publisher={IEEE}
}