Journal of Institute of Control, Robotics and Systems (제어로봇시스템학회논문지)

Institute of Control, Robotics and Systems (제어로봇시스템학회)
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A fault detection and recovery mechanism for the fault-tolerance of a Mini-MAP system

Mini-MAP 시스템의 결함 허용성을 위한 결함 감지 및 복구 기법

  • 문홍주 (한전전력연구원 시스템통신연구소) ;
  • 권욱현 (서울대학교 전기공학부)
  • Published : 1998.04.01
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Abstract

This paper proposes a fault detection and recovery mechanism for a fault-tolerant Mini-MAP system, and provides detailed techniques for its implementation. This paper considers the fault-tolerant Mini-MAP system which has dual layer structure from the LLC sublayer down to the physical layer to cope with the faults of those layers. For a good fault detection, a redundant and hierarchical fault supervision architecture is proposed and its implementation technique for a stable detection operation is provided. Information for the fault location is provided from data reported with a fault detection and obtained by an additional network diagnosis. The faults are recovered by the stand-by sparing method applied for a dual network composed of two equivalent networks. A network switch mechanism is proposed to achieve a reliable and stable network function. A fault-tolerant Mini-MAP system is implemented by applying the proposed fault detection and recovery mechanism.

Keywords

References

  1. MAP and TOP Communications: Standards and Applications A. Valenzano;C. Demartini;L. Ciminiera
  2. ISO/IEC 8802-4 Information processing systems - Local Area Networks - Part 4: Token-passing Bus Access Method and Physical Layer Specification ISO/IEC 8802-4
  3. ISO/IEC 8802-2 Logical Link Control ISO/IEC 8802-2
  4. IEEE Trans. on Instrumentation and Measurement v.38 no.1 A fault tolerant microcomputer ring for data acquisition in industrial environments U. Minoni;G. Sansoni;N. Scarabottolo
  5. Computers and Chemical Engineering v.14 no.Iss.4;5 A model-object based supervisory expert system for fault tolerant chemical reactor control M. R. Basila Jr.;G. Stefanek;A. Cinar
  6. Design and Analysis of Fault-Tolerant Digital Systems B. W. Johnson
  7. IEEE trans. on Computers v.C-33 no.12 Fault-tolerant computing - concepts and examples D. A. Rennels
  8. IEEE Trans. on Computers v.C-31 no.7 REBUS, A Fault-Tolerant Distributed System for Industrial Real-Time Control J.-M. Ayache;J.-P. Courtiat;M. Diaz
  9. Proc. of IECON Advanced MAP for real-time process control Y. Shiobara;T. Matsudaira;Y. Sashida;M. Chikuma
  10. EMUG MAP/TOP EVENTS Conference Proceedings, SYSTEC 92 MAP Mining - A communications system for mining applications H. Kleines;K. Zwoll
  11. 전자공학회지 v.32 no.3 결함 허용 Mini-MAP 시스템의 구현 및 성능해석 문홍주;박홍성;권욱현
  12. 기술보고서, 삼성 데이타 시스템 주식회사 발전소 보일러의 디지탈 분산 제어 시스템 개발 및 적용 (the development and application of digital distributed control system for boiler in the power plant) 삼성 데이타 시스템 주식회사
  13. 전기학회지 v.41 no.9 발전소용 분산제어 시스템의 개발 문봉채
  14. 서울대학교 공학석사 학위논문 외란이 있는 환경에서의 IEEE 802.4 토큰전달 방식의 해석 문홍주
  15. MC68824 User's Manual Motorola Inc.
  16. SYS68K/CPU-30 User's Manual Revision no.3 Force Computers Inc./GmbH
  17. VxWorks Programmer's Guide Wind River Systems, Inc.