Electric transportation systems have increased in complexity in several ways. For example, electrical performance has increased from what was traditionally the core of the system, a rolling stock and traction supply circuit. Today, a plethora of devices are installed for signaling, communication, and control, requiring a proportionally larger number of interconnecting cables; the reliability and availability of the system has increased, as has user and stakeholder awareness; and system assurance and safety go through a complex and sophisticated process.
Low-frequency coupling: Phenomena in electic transportation systems
Bongiorno J.;Boschetti G.;Mariscotti A.
2016-01-01
Abstract
Electric transportation systems have increased in complexity in several ways. For example, electrical performance has increased from what was traditionally the core of the system, a rolling stock and traction supply circuit. Today, a plethora of devices are installed for signaling, communication, and control, requiring a proportionally larger number of interconnecting cables; the reliability and availability of the system has increased, as has user and stakeholder awareness; and system assurance and safety go through a complex and sophisticated process.
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