Title :
Ring stability of the PROFIBUS token-passing protocol over error-prone links
Author :
Willig, Andreas ; Wolisz, Adam
Author_Institution :
Dept. of Electr. Eng., Tech. Univ. Berlin, Germany
fDate :
10/1/2001 12:00:00 AM
Abstract :
The PROFIBUS is a well-known and widely used fieldbus. On the medium access control layer, it employs a token-passing protocol where all active stations form a logical ring on top of a broadcast medium. This protocol is designed to deliver real-time data transmission services in harsh industrial environments. A necessary prerequisite for timeliness and quality of service is the ring membership stability of the logical ring in the presence of transmission errors, since only ring members are allowed to transmit data. In this paper, the ring membership stability under high error rates and using different error models is analyzed. The choice of the error behavior is in turn inspired by properties of possible future transmission technologies, e.g., wireless LANs. It is shown that the protocol has serious stability problems. To attack these problems, two changes to the protocol and its parameters are proposed, which can be implemented in a purely local manner. We show that they significantly improve ring stability
Keywords :
access protocols; business communication; computer network reliability; error statistics; field buses; local area networks; quality of service; token networks; PROFIBUS token-passing protocol; broadcast medium; error models; error rates; error-prone links; fieldbus; harsh industrial environments; logical ring; medium access control layer; quality of service; real-time data transmission services; ring membership stability; ring stability; stability problems; timeliness; Access protocols; Broadcasting; Data communication; Error analysis; Field buses; Helium; Media Access Protocol; Quality of service; Stability analysis; Wireless LAN;
Journal_Title :
Industrial Electronics, IEEE Transactions on
