TIME-CONSTRAINED FAULT TOLERANT X-BY-WIRE SYSTEMS

P.M. Khilar and S. Mahapatra

References

  1. [1] N. Kandasamy, J.P.Hayes, & B.T. Murray, Time-constrained failure diagnosis in distributed embedded systems: application to actuator diagnosis, IEEE Transactions on PDS, 16 (3), 2005, 258–270.
  2. [2] Y.C.(Bob) Yeh, Design considerations in Boeing 777 fly-by-wire computers, 3rd IEEE International Symp. on High-Assurance Systems Engineering, 1998, 64–73.
  3. [3] H. Attiya, A. Herzberg, & S. Rajsbaum, Clock synchronization under different delay assumptions, SIAM Journal on Computing, 25 (2), 1996, 369–389.
  4. [4] R. Isermann, R. Schwarz, & S. Stolzl, Fault-tolerantdrive_by_wire systems, IEEE Control Systems Magazine,22 (5), 2002, 64–81.
  5. [5] D. Blough & H.W. Brown, The broadcast comparison modelfor on-line fault diagnosis in multicomputer systems: theory and implementation, IEEE Transactions on Computers, 48 (5), 1999, 470–493.
  6. [6] C. P. Fuhrman, Comparison-based diagnosis in fault-tolerant, multiprocessor systems, Ph.D Dissertation, Swiss Federal Institute of Technology in Lausanne (EPFL), 1996.
  7. [7] S.E. Lyshevski, R.D. Colgren, & V.A. Skormin, High torque density integrated electromechanical flight actuators, IEEE Transactions on Aerospace and Electronics System, 38 (1), 2002, 174–182.
  8. [8] S.E. Lyshevski, Electromechanical flight actuators for advanced flight vehicles, IEEE Transactions on Aerospace and Electronics System, 35 (2), 1999, 511–518.
  9. [9] http://www.grc.nasa.gov/www/K-12/airplane, The beginner’s guide to aeronautics.
  10. [10] M. Barborak, Malek, & Dahbura, The consensus problem in fault-tolerant computing, ACM Computing Surveys, 25, 1993, 171–220.
  11. [11] C.J. Walter, P. Lincoln, & N. Suri, Formally verified on-line diagnosis, IEEE Transactions Software Engineering, 23 (11), 1997, 684–721.
  12. [12] D. Chen et. al., Reliability and availability analysis for the JPL remote exploration and experimentation system, Proc. International Conf. on DSN, 2002.
  13. [13] R.P. Bianchini & R. Buskens, Implementation of on-line distributed system-level diagnosis theory, IEEE Transactions on Computer, 41, 1992, 616–626.
  14. [14] E.P. Duarte Jr., & T. Nanya, A hierarchical adaptive distributed system-level diagnosis algorithm, IEEE Transactions on Computer, 47, 1998, 34–45.
  15. [15] E.P. Duarte Jr., et al., An algorithm for distributed hierarchical diagnosis of dynamic fault and repair events, in Proc. IEEE ICPADS’00, 2000.
  16. [16] A. Subbiah & D.M. Blough, Distributed diagnosis in dynamic fault environments, IEEE Transactions on PDS, 15 (5), 2004, 453–467.
  17. [17] S. Rangarajan et al., A distributed system-level diagnosis algorithm for arbitrary network topologies, IEEE Transactions on Computers, 44 (2), 1995, 312–334.
  18. [18] R.P. Bianchini & R. Buskens, An adaptive distributed system-level diagnosis algorithm and its implementation, in Proc. FTCS-21, 1991, 222–229.
  19. [19] M. Hiltunen, Membership and system diagnosis, Proc. 14th Symp. Reliable Distributed Systems, 1995, 208–217.
  20. [20] P.M. Khilar & S. Mahapatra, Distributed diagnosis in dynamic fault environments for arbitrary network topologies, in Proc. IEEE INDICON Conf., Chennai, India, 11–13, Dec 2005, 56–59.
  21. [21] P.M. Khilar & S. Mahapatra, Heartbeat based fault diagnosis in mobile adhoc network, Proc. of 3rd International Conf. on ACST, April 2–4, 2007, Phuket, Thailand, 194–199.
  22. [22] F. Jahanian et al., Run-time monitoring of timing constraints in distributed real-time systems, Proc. IEEE Real-Time Systems Symp, 1994, 247–273.
  23. [23] H. Kopetz & G. Gruensteidl, TTP-A time-triggered protocol for fault-tolerant real-time systems, Proc. IEEE Fault-Tolerant Comp. Symp, 1993, 524–532.
  24. [24] L.M. Pinho & V. Francisco, Reliable real-time communication in CAN networks, IEEE Transactions on Computers, 52(12), 2003, 1594–1607.
  25. [25] M. Barborak & M. Malek, Partitioning for efficient consensuses, Proc. 26th Hawaii International Conf. on System Sciences, Jan, 1993.
  26. [26] C.A. lmeida & P. Verissimo, Timing failure detection and real-time group communication in quasi-synchronous systems, Proc. of the 8th Euromicro on Real-Time Systems Workshop, IEEE Computer Society Press, 1996, 230–235.
  27. [27] G.M.A Lima, Fault tolerance in fixed-priority hard real-time distributed systems, Ph.D Thesis, Department of CSE, University of York, May 2003.
  28. [28] N.V. Satyanarayana, Fault-tolerant scheduling in parallel and distributed real-time systems, Ph.D Theses, Department of CSE, IIT, Kharagpur, Feb. 2001.
  29. [29] S. Darbha & D.P Agrawal, Optimal scheduling algorithm for distributed memory machines, IEEE Transactions on PDS,9 (1), 1998, 87–95.
  30. [30] R. Bajaj & D.P. Agrawal, Improving scheduling of tasks in a heterogeneous environments, IEEE Transactions on PDS, 15 (2), 2004, 107–118.
  31. [31] N. Kandasamy et al., Synthesis of robust task schedules for minimum disruption repair, IEEE International Conf. on Systems, Man and Cybernatics 2004, 5056–5061.
  32. [32] A. Sarkar, P.P. Chakraborty & Rajeeve Kumar, Frame-based proportional round-robin, IEEE Transactions on Computers, 55 (9), 2006, 1121–1129.
  33. [33] P.R. Lorczak et al., A theoretical investigation of generalized voters for redundant systems, Proc. IEEE Fault-Tolerant Comp. Symp., 1989, 444–451.

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