Title :
Reliability prediction of distributed embedded fault-tolerant systems
Author :
Sheldon, Frederick T. ; Mei, Hsing ; Yang, Seung-Min
Author_Institution :
Dept. of Comput. Sci. Eng., Texas Univ., Arlington, TX, USA
Abstract :
A new reliability model is introduced for selecting the best software fault-tolerant (FT) design. This model uses a task graph technique that allows different candidate FT configurations to be analyzed based on the structure and organization of different distributed embedded systems. Reliability prediction with this approach can be useful for addressing system dependability issues (i.e., fault detection/recovery processes and steady-state availability) in addition to ascertaining fault coverage (i.e., the likelihood of missing and/or false faults). The results of analyzing three different Simplified Unmanned Vehicle System (SUVS) FT configurations are presented. This work is described within the framework of the Conservative and Do-best FT design policies and fits consistent with a software development model for real-time control systems that was introduced in earlier work by the authors
Keywords :
distributed processing; real-time systems; software fault tolerance; system recovery; Conservative design policy; Do-best FT design policies; Simplified Unmanned Vehicle System; distributed embedded fault-tolerant systems; fault coverage; fault detection; fault recovery; real-time control systems; reliability model; reliability prediction; software development model; software fault tolerant design; steady-state availability; system dependability; task graph technique; Availability; Control system synthesis; Embedded system; Fault detection; Fault tolerance; Programming; Real time systems; Software design; Steady-state; Vehicles;
Conference_Titel :
Software Reliability Engineering, 1993. Proceedings., Fourth International Symposium on
Conference_Location :
Denver, CO
Print_ISBN :
0-8186-4010-3
DOI :
10.1109/ISSRE.1993.624278
