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Mikko Kivelä, A. Arenas, M. Barthelemy, J. Gleeson, Y. Moreno, M. Porter (2013)
Multilayer networksJ. Complex Networks, 2
D. Callaway, M. Newman, M. Newman, S. Strogatz, D. Watts, D. Watts (2000)
Network robustness and fragility: percolation on random graphs.Physical review letters, 85 25
Inas Khayal, A. Farid (2017)
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A. Farid, D. McFarlane (2006)
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A. Farid, L. Ribeiro (2015)
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Electrified Transportation System Performance: Conventional Versus Online Electric Vehicles
N. Hingorani, L. Gyugyi (1999)
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Petter Holme, J. Saramäki (2011)
Temporal NetworksArXiv, abs/1108.1780
A. Farid, D. McFarlane (2006)
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A Hybrid Dynamic System Model for Multimodal Transportation ElectrificationIEEE Transactions on Control Systems Technology, 25
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Measures of reconfigurability and its key characteristics in intelligent manufacturing systemsJournal of Intelligent Manufacturing, 28
Inas Khayal, A. Farid (2013)
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M. Newman (2003)
The Structure and Function of Complex NetworksSIAM Rev., 45
A. Farid (2008)
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[The sixth chapter of this book serves to point the reader to further applications of hetero-functional graph theory. It highlights the many already-existing applications of the theory: Mass-Customized Production Systems,Multi-Modal Transportation Systems,Electric Power Systems,Multi-Modal Electrified Transportation Systems,Microgrid-Enabled Production Systems, andPersonalized Healthcare Delivery Systems.]
Published: Dec 1, 2018
Keywords: Mass Customization Production System; Multi-modal Transportation System; Domain-specific Reference Architectures; Future Electric Power Systems; Potential Reconfiguration
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