DocumentCode
1548479
Title
Communication network protocol for real-time distributed control and its LSI implementation
Author
Kobayashi, Koji ; Kameyama, Michitaka ; Higuchi, Tatsuo
Author_Institution
Yamatake-Honeywell Co. Ltd., Isehara, Japan
Volume
44
Issue
3
fYear
1997
fDate
6/1/1997 12:00:00 AM
Firstpage
418
Lastpage
426
Abstract
A new token-passing mechanism, priority token passing, which features real-time access and fast detection and recovery of transmission errors, is discussed in detail in comparison with standard token-passing protocols, and its large-scale integration (LSI)-oriented design concept is described. Priority token passing includes only a small performance overhead, due to its switching functions, which can change network topology from ring to broadcast medium. A token-holding node passes the token to another node after determining the successor through priority comparison. Errors occurring during token passing can, thus, be detected and corrected simply and promptly. Priority token passing has a simple hardware implementation, requiring only small additions to the frame control circuitry, and has a small implementation overhead. The priority token-passing protocol and two other important network communication functions, dual ring network reconfiguration and high-level data link control (HDLC) normal response mode-based message transmission, are designed as a single finite-state machine, and implemented into a compact LSI chip. This integrated instrument network (IINET) chip provides complete network communication services and requires only three additional external electronic components for operation
Keywords
computer network reliability; distributed control; fault tolerant computing; finite state machines; large scale integration; local area networks; protocols; real-time systems; token networks; LSI implementation; communication network protocol; dual ring network reconfiguration; finite-state machine; high-level data link control; normal response mode-based message transmission; priority token passing; real-time distributed control; token-holding node; token-passing mechanism; transmission error detection; transmission error recovery; Access protocols; Broadcasting; Circuits; Communication networks; Communication system control; Distributed control; Error correction; Hardware; Large scale integration; Network topology;
fLanguage
English
Journal_Title
Industrial Electronics, IEEE Transactions on
Publisher
ieee
ISSN
0278-0046
Type
jour
DOI
10.1109/41.585841
Filename
585841
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