Lecturer(s)
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Ouředníček Jan, Ing. Ph.D.
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Sýkora Petr, Ing.
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Vašata Josef, Ing.
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Course content
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Electric traction - fundamental terms, sorts seat power control traction, firm order traction equipment. Standardized turbojet system CD, European courses and MHD. Power supply electric courses, descriptor transmission energy. Traction line trolley wire and backward dog spike, Frediny substation - substation. Power supply preventive arrangement, other feed (haulage, warming - up exchanges, predtapeni). Drive electric running - central dispatcher graf drive. Problems safety technique generally. Technical and functional safety, reliability, RAM. Resources to achievement technical credibility gap. Common structure traction generating station preventive systems (contractual documents workplace, safe logical kernel, operated circumference). Fission traction generating station preventive systems (station, season ticket, train). Principles and realization concrete types preventive systems. Estimation current state CD with consideration to wiring to the nets in - transit European skywaies.
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Learning activities and teaching methods
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Monologic (reading, lecture, briefing)
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Learning outcomes
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Aim subject is acquaint in first parts with electric traction and other feed device. In second parts is encyclopedic form effected familiarization with methods, that are used to achievement safeness in transport and about features technical systems, that are intended to drive, safeguard and automatization transport. Subject focus is especially railway traffic.
After graduation subject student regaining knowledge in the area seat power control traction and comprehend basic differences in access and methods used to reservation safeness in single kinds transport. Further gains survey about basic technical and physical principles used to realization railway's preventive systems and about functional features systems for drive and safeguard railage.
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Prerequisites
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Knowledge of elementary principles of railway transport organization and basic terms and terminology connected with railway infrastructure is assumed. Moreover, logical thinking and knowledge of high-school physics (mechanics and electromagnetics) is necessary.
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Assessment methods and criteria
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Oral examination
Student must along semester also at final examination evidence understanding buckthorn problems. Concrete requirements will communicate students teaching in first week semester.
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Recommended literature
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GREGORA, S.,OUŘEDNÍČEK, J. Elektrotechnika a zabezpečovací technika v dopravní infrastruktuře.. DFJP Pardubice, 2005.
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Chudáček V. a kol. Detekce kolejových vozidel v železniční zabezpečovací technice. II.vydání.. Praha, 2005.
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CHUDÁČEK V. a kol. Železniční zabezpečovací technika. 2. přeprac. a doplň. vyd.. Praha: VÚŽ, 2005.
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PACHL, J. Railway Operation and Control. 2nd ed. Mountlake Terrace (USA): VTD Rail Publishing, 2009. ISBN 0-9719915-1-0.
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RÁSTOČNÝ, K., ZAHRADNÍK, J. Aplikácie zabezpečovacích systémov. 1. vyd.. Edis, Žilina, 2006. ISBN 80-8070-546-1.
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RÁSTOČNÝ, K., ZAHRADNÍK, J. Železničné zabezpečovacie systémy-základné štruktury.
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Theeg, Gregor. Railway signalling & interlocking : international compendium. Hamburg: Eurailpress, 2009. ISBN 978-3-7771-0394-5.
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