Title :
Optimizing fault tolerance in embedded distributed systems
Author_Institution :
Univ. of Appl. Sci., Rheinbach, Germany
Abstract :
This article considers a gas-insulated switchgear (GIS) station. Here, all switches are located in SF6 gas volumes, offering a much better isolation and spark-extinguishing property than air, and thus leading to a far more compact size. All volumes have one or two sensors for monitoring gas density. The station´s distributed computing system is arranged in several levels. PISAs-embedded computing systems for preprocessing the data from digital/analog converters and for writing them on the process bus (PB)-link to the sensor and actuator hardware. PISAs in the switches also take the actuator commands from the process bus and carry out the switching actions
Keywords :
fault tolerance; fault tolerant computing; power distribution control; switchgear; distributed computing system; embedded distributed systems; fault tolerance; gas densit; gas-insulated switchgear; Actuators; Analog computers; Distributed computing; Fault tolerant systems; Gas detectors; Gas insulation; Geographic Information Systems; Monitoring; Switches; Switchgear;
Journal_Title :
Micro, IEEE
