• Title/Summary/Keyword: Multifunction Vehicle Bus

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A Protocol Analysis Platform for the WTB Redundancy in Train Communication Network(TCN) (철도차량 통신 네트워크(TCN)에서의 WTB 이중화에 대한 프로토콜 분석 플랫폼)

  • Choi, Seok-In;Shon, Jin-Geun
    • The Transactions of the Korean Institute of Electrical Engineers P
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    • v.62 no.1
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    • pp.23-29
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    • 2013
  • TCN(train communication network) standard was approved in 1999 by the IEC (IEC 61375-1) and IEEE (IEEE 1473-T) organizations to warrant a reliable train and equipment interoperability. TCN defines the set of communication vehicle buses and train buses. The MVB(multifunction vehicle bus) defines the data communication interface of equipment located in a vehicle and the WTB(wire train bus) defines the data communication interface between vehicles. The WTB and each MVB will be connected over a node acting as gateway. Also, to support applications demanding a high reliability, the standard defines a redundancy scheme in which the bus may be double-line and redundant-node implemented. In this paper we have presented protocol analysis platform for the WTB redundancy which is part of TCN system, to verify communication state of high-speed trains. As a confirmation of its validity, the technology described in this paper has been successfully applied to state monitoring and protocol verification of redundancy WTB based on TCN.

Implementation of Communication to Flexibly Configure the Number of Railway Cars (철도차량 수를 유연하게 구성할 수 있는 통신시스템 구현)

  • Yeon, Jun Sang;Yang, Oh
    • Journal of the Semiconductor & Display Technology
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    • v.15 no.4
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    • pp.61-66
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    • 2016
  • This paper presents the implementation for a network structure of railway cars using a point to point communication. Most of network's representative specifications for a train are the FIP (Field Bus), MVB (Multifunction Vehicle Bus), CAN and WTB (Wire Train Bus) which is used by ALSOM, SIEMENS and BOMBADIER as major in this field. These networks in a physical layer use a multi-drop method, connected from $1^{st}$ car to $n^{th}$ car of a train through a cable without any extra services such as an electric part, amplifier. However waveforms which is passed through a long cable in the multi-drop are distorted by a capacitance or resistance of the cable or environments. Also since using a cable connected directly from $1^{st}$ car to $n^{th}$ car, if over two trains make double head, it isn't easy to distinguish ID for each railway cars. So by using the point to point network per each car, it is able to reduce a distortion. Also since reducing distortion, this communication speed can be been higher and transmit and receive any packets more stably. Using proposed token in a packet, this can make ID per each railway car automatically. Finally experimental results show the good performance and effectiveness of the proposed method.

A Study on the Performance Improvement of Message Transmission over MVB(Multifunction Vehicle Bus)

  • Choi, Myung-Ho;Park, Jae-Hyun
    • 제어로봇시스템학회:학술대회논문집
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    • 2003.10a
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    • pp.2198-2202
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    • 2003
  • The data transmission of MVB(Multifunction Vehicle Bus) of TCN(Train Network Communication) is divided into the periodic transmission phase and the sporadic transmission phase. TCN standard defines the event-polling method for the message transfer in the sporadic phase. However, since the event-polling method does not use pre-scheduling to the priority of the messages to be transmitted, it is inefficient for the real-time systems. To schedule message transmission, a master node should know the priority of message to be transmitted by a slave node prior to the scheduling the sporadic phase, but the existing TCN standard does not support any protocol for this. This paper proposes the slave frame bit-stuffing algorithm, with which a master node gets the necessary information for transmission scheduling and includes the simulation results of the event-polling method and the proposed algorithm.

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Performance Improvement of Message Transmission over TCN(Train Communication Network) (TCN을 통한 메시지 전송 능력 향상에 관한 연구)

  • Cho Myung-ho;Moon Chong-chun;Park Jaehyun
    • The Transactions of the Korean Institute of Electrical Engineers D
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    • v.53 no.10
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    • pp.720-726
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    • 2004
  • The data transmission over MVB(Multifunction Vehicle Bus) of TCN(Train Communication Network) is divided into the periodic transmission phase and the sporadic transmission phase. TCN standard recommends the event-polling method as the message transfer in the sporadic phase. However, since the event-polling method does not use pre-scheduling to the priority of the messages, it is inefficient for the real-time systems. To schedule message transmission, a master node should know the priority of message to be transmitted by a slave node prior to the sporadic phase, but the existing TCN standard does not support any protocol for this. This paper proposes the slave frame bit-stuffing algorithm, with which a master node gets the necessary information for scheduling and includes the simulation results of the event-polling method and the proposed algorithm.

Implementation of High-Reliable MVB Network for Safety System of Nuclear Power Plant (원자력발전소 안전계통용 고신뢰성 MVB 네트워크 구현)

  • Sul, Jae-Yoon;Kim, Ki-Chang;Kim, Yoo-Sung;Park, Jae-Hyun
    • The Transactions of The Korean Institute of Electrical Engineers
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    • v.61 no.6
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    • pp.859-864
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    • 2012
  • The computer network plays an important role in modern digital controllers within a safety system of a nuclear power plant. For the reliable and realtime data communication between controllers, this paper proposes a modified high-reliable MVB(multi-function vehicle bus) as a main control network for a safety system of a nuclear power plant. The proposed network supports the state-based communication in order to ensure the deterministic communication latency, and very fast network recovery when the bus master fails compare to the standard MVB. This paper also shows the implementation results using a FPGA-based testbed.

The On-Board Test Study of Train Diagnostic and Control System Using TCN(IEC 61375-1) (TCN(IEC 61375-1)을 이용한 열차진단제어장치의 실증시험 연구)

  • Kim, Hun;Hong, Goo-Sun;Han, Jeong-Soo;Choi, Jong-Mook
    • Proceedings of the KSR Conference
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    • 2007.11a
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    • pp.1413-1427
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    • 2007
  • The Train Networks has a goal which requires the fast and correct data communication for distributable equipment systems. For this, in 1999, some train makers had established the standard TCN(IEC61375-1) for the inter-operating between equipment systems. Recently, TCN is being used in EU, China and the requirement to use it is growing up by many other countries more and more. The TCN was adopted at Korea High-speed Train with first in Korea, and Rotem Company finished the design of TCMS with TCN network for Istanbul EMU and KTX-2 Train and tests them. TCN(Train Communication Networks) defines the set of communication vehicle buses and train buses. The MVB(Multifunction Vehicle Bus) defines the data communication interface of equipment located in a vehicle and the WTB(Wire Train Bus) defines the data communication interface between vehicles. This paper examines whether the result of on-board test is satisfied with the IEC61375-1(International Electrotechnical Commission 61375-1) which is the international standard of TCN and introduce the results.

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Double mastering network for train communication (철도 차량용 통신 네트워트의 이중 마스터 운용 기법)

  • Ryou, Heung-Reol;Cho, Young-Jo;Oh, Sang-Rok;Hong, Dae-Sik
    • Proceedings of the KIEE Conference
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    • 1998.07a
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    • pp.355-358
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    • 1998
  • Train control and monitoring system for the railway train requires a reliable real-time communication network. The system have various functions, diagnostics, passenger informations, and fault-tolerant controls. For this system, an international standard called TCN(Train Communication Network) is proposed by IEC and the train industries. The TCN is composed of two layers, wire train bus(WTB) and multifunction vehicle bus(MVB). This paper evaluates the performance of the proposed WTB and modified WTB. And computer simulations are performed. The evaluated results can be used for the fault tolerant network in the railway train system.

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Mastership Passing Algorithm for Train Communication Network Protocol (철도 제어통신 네트워크 프로토콜에서 마스터권한 진달 기법)

  • Seo, Min-Ho;Park, Jae-Hyun;Choi, Young-Joon
    • Journal of the Korean Society for Railway
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    • v.10 no.1 s.38
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    • pp.88-95
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    • 2007
  • TCN(Train Communication Network) adopts the master/slave protocol to implement real-time communication. In this network, a fault on the master node, cased by either hardware or software failure, makes the entire communication impossible over TCN. To reduce fault detection and recovery time, this paper propose the contention based mastership transfer algorithm. Slave nodes detect the fault of master node and search next master node using the proposed algorithm. This paper also shows the implementation results of a SoC-based Fault-Tolerant MVB Controller(FT-MVBC) which includes the fault-detect-logic as well as the MVB network logic to verify this algorithm.

Implementation and simulation a slave module based on MVB of the TCN(IEC 61375-1) (TCN(IEC-61375-1)의 MVB 기반 슬레이브 컨트롤러 구현 및 시뮬레이션)

  • Sul, Jaeyoon;Kim, Seok-Heon;Park, Jaehyun
    • Proceedings of the Korea Information Processing Society Conference
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    • 2009.11a
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    • pp.573-574
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    • 2009
  • 열차 통신의 목적은 분산 제어 시스템에서 빠르고 정확한 데이터 교환에 있다. 이를 위하여 개발되고 1999년 IEC와 IEEE에 의해 국제 규격으로 승인된 TCN(Train Communication Network)은 차량간 통신 버스인 WTB(Wired Train Bus)와 차량내 통신 버스인 MVB(Multifunction Vehicle Bus)의 이중 계층 구조로 구성되며 TCN의 데이터 서비스는 프로세스 데이터, 메시지 데이터, 관리용 데이터의 세가지 데이터 서비스로 구분된다. MVB는 전송 가능한 데이터 서비스에 따라 디바이스의 클래스가 나눠지게 된다. 본 논문에서는 MVB에서 버스 마스터의 프레임에 따라 데이터를 보낼 수 있는 슬레이브 컨트롤러의 구성과 시뮬레이션을 통해 구현된 장치의 기능이 국제 표준의 제안사항들을 따르고 있는 지 증명한다.