Performance analysis of fieldbus systems using Petri net

페리네트를 이용한 필드버스 시스템의 성능 해석

  • 박홍성 (강원대학교 제어계측공학과, 현 독일 Aachen 공대) ;
  • 이재수 (기인시스템) ;
  • 홍성수 (서울대학교 전기공학부)
  • Published : 1996.09.01

Abstract

This paper presents a extended stochastic Petri net (ESPN) model for CTN(Circulated Token with No duration) service in the data link layer of IEC/ISA fieldbus. It is assumed that a station on the fieldbus has a specified minimum token holding time, a finite capacity buffer, and one transmitter queue with the highest priority. The mean transmission (or service) time at a station and the mean token rotation time for the symmetric fieldbus system atr derived using the presented SPN model and the moment generating function. These performance measures are represented in terms of the minimum token holding time, the number of stations, the arrival rate of messages, and the mean length of messages. The presented performance measure are validated by computer simulations.

Keywords

References

  1. Data Link Protocol Specification ISA SP50(eds.)
  2. Profibus-Technical Documents Profibus Committee
  3. FIP technical Description FIP Committee
  4. SERCOS interface SERCOS interface Inc.
  5. Road Vehicles-Interchange of digital information Controller Area Network(CAN) for high-speed communication ISO/TC 184/SC 5/WG 2
  6. MAP 3.0 Specification 1993 Release World Fed. of MAP/TOP Users Groups
  7. Computer Networks and Performance Evaluation Multiqueue systems with finite capacity and nonexhaustive cyclic service P.Tran-Gia;T.Raith
  8. IEEE J. on Selected Areas in Communications v.SAC-4 no.6 Computation of the variance of the waiting time for token rings M.J.Ferguson
  9. IEEE Tr. on COmmunications v.COM-33 no.3 Exact results for nonsymmetric token ring systems M.J.Ferguso;Y.J.Aminetzah
  10. IEEE Tr. on Computers v.37 no.10 Analytic models of cyclic service systems and their application to token-passing local networks V.Rego;L.M.Ni
  11. IEEE Tr. on Comm. v.37 no.6 Approximate analysis of asymmetric Single-Service token-passing systems O.C.IBE;X.Cheng
  12. IEEE Tr. on Communications v.39 no.7 Approximate analysis of asymmetric single-service prioritized token passing systems B.Grela-M'Poko;M.M.Ali;J.F.Hayes
  13. IEEE J. on Selected Areas in Communications v.SAC-4 no.6 Diffusion approximation for a token ring system with nonexhaustive service G.Kimura;Y.Takahashi
  14. IEEE Tr. on Industrial Electronics v.40 no.4 Perfomance and parameter region for real time use in IEEE 802.4 token bus network H.S.Park;S.C.Ahn;W.H.Kwon
  15. IEEE Tr. on Indus. Elect. v.37 no.6 Selection of token holding times in timed-token protocols P.Montuschi;A.Valenzano;L.Ciminiera
  16. IEEE Tr. on Industrial Electronics v.35 no.3 Setting target rotation times in an IEEE token bus network R.M.Gorur;A.C.Weaver
  17. IEEE Tr. on Communications v.37 no.6 Throughput analysis of the IEEE 802.4 priority scheme A.P.Jayasumana
  18. IEEE Tr. on Industrial Electronics v.36 no.3 On the use of the IEEE 802.4 token bus in distributed real-time control systems A.P.Jayasumana;G.G.Jayasumana
  19. IEEE Tr. on Comm. v.37 Throughput analysis of a timer controlled token passing protocol under heavy load J.W.M.Pang;F.A.Tobagi
  20. IEEE Tr. on Indus. Elect. v.38 no.4 Evaluating the fieldbus data link layer by a petri net-based simulation A.Di Stefano;O.Mirabella
  21. IEEE Tr. on Industrial Electronics v.40 no.3 Optimization of acyclic bandwidth allocation exploiting the priority mechanism in the fieldbus data link layer S.Cavalieri;A.Di Stefano;O.Mirabella
  22. IEEE Tr. on Industrial Electronics v.40 no.4 The performance of a timer-controlled token passing echanism with finite buffers in an industrial communication network D.W.Kim;H.S.Park;W.H.Kwon
  23. IEEE Tr. on AC. v.38 no.2 A moment generating function based approach for evaluating extended stochastic petri Nets D.L.Guo;F.DiCesare;M.C.Zhou
  24. Perfomance Modeling of Automated Manufacturing Systems N.Visawanadham;Y.Narahari
  25. fundamentals of Performance Modeling M.K.Molloy