TIMELY AND DEPENDABLE QoS ADAPTATION IN QUASI-SYNCHRONOUS SYSTEMS

Carlos Almeida

References

1. [1] M. de Prycker, Asynchronous transfer mode: solution forbroadband ISDN, Number ISBN 0-13-342171-6, 3rd ed. (Pren-tice Hall, London, UK, 1995).
2. [2] P. Ver´ıssimo and C. Almeida, Quasi-synchronism: a step awayfrom the traditional fault-tolerant real-time system models,Bulletin of the Technical Committee on Operating Systems andApplication Environments (TCOS), IEEE Computer Society,7 (4), 1995, 35–39.
3. [3] A. Gopal and S. Toueg, Inconsistency and contaminations,Proc. of the 10th ACM Annual Symposium on Principles ofDistributed Computing, Montreal, Quebec, 1991, 257–272.
4. [4] C. Almeida, P. Ver´ıssimo, and A. Casimiro, The quasi-synchronous approach to fault-tolerant and real-time commu-nication and processing. Technical Report CSTC RT-98-04,Instituto Superior T´ecnico, Lisboa, Portugal, 1998.
5. [5] C. Almeida and P. Ver´ıssimo, An adaptive real-time groupcommunication protocol, Proc of the First IEEE Workshop onFactory Communication Systems, Leysin, Switzerland, 1995.
6. [6] C. Almeida and P. Ver´ıssimo, Timing failure detection andreal-time group communication in quasi-synchronous systems,Proc. of the 8th Euromicro Workshop on Real-Time Systems,L’Aquila, Italy, 1996.
7. [7] C. Almeida and P. Ver´ıssimo, Using light-weight groups tohandle timing failures in quasi-synchronous systems, Proc. ofthe 19th IEEE Real-Time Systems Symposium, Madrid, Spain,1998.
8. [8] C. Almeida, Dynamic QoS adaptability in quasi-synchronoussystems, Proc. of the 14th IASTED Int. Conf. on Parallel andDistributed Computing and Systems – PDCS2002, Cambridge,MA, 2002, 691–696.
9. [9] A.M. Ricciardi and K.P. Birman, Using process groups toimplement failure detection in asynchronous environemnts,Technical Report TR 91-1188, Cornell University, 1991.
10. [10] T. Chandra and S. Toueg, Unreliable failure detectors for asyn-chronous systems, Proc. of the 10th ACM Annual Symposiumon Principles of Distributed Computing, Montreal, Quebec,1991.
11. [11] M.J. Fischer, N.A. Lynch, and M.S. Paterson, Impossibility ofdistributed consensus with one faulty process. Journal of theAssociation for Computing Machinery, 32 (2), 1985, 374–382.
12. [12] C. Dwork, N. Lynch, and L. Stockmeyer, Consensus in thepresence of partial synchrony, Journal of the ACM, 35 (2),1988, 288–323.
13. [13] F. Cristian and C. Fetzer, The timed asynchronous systemmodel, Proc. of 28th Annual Int. Symposium on Fault-TolerantComputing, Munich, Germany, 1998.
14. [14] C. Fetzer and F. Cristian, Fail-awareness: an approach toconstruct fail-safe applications, Proc. of 27th Annual Int.Symposium on Fault-Tolerant Computing, Seattle, Washington,WA, 1997.
15. [15] P. Ver´ıssimo, A. Casimiro, and C. Fetzer, The timely computingbase: timely actions in the presence of uncertain timeliness,Proc. of the Int. Conf. on Dependable Systems and Networks,New York, NY, 2000.
16. [16] A. Casimiro and P. Ver´ıssimo, Using the timely computingbase for dependable Qos Adaptation, Proc. of the 20th IEEE187Symposium on Reliable Distributed Systems, New Orleans, LA,2001, 208–217.
17. [17] C. Lu, J.A. Stankovic, T.F. Abdelzaher, G. Tao, S.H. Son,and M. Marley, Performance specifications and metrics foradaptive real-time systems, Proc. of the 21st IEEE Real-TimeSystems Symposium, Orlando, FL, 2000.
18. [18] C. Diot, Adaptive applications and QoS guaranties, IEEEMultimedia Networking, Aizu (Japan), 1995, 27–29.
19. [19] C. Aurrecoechea, A.T. Campbell, and L. Hauw, A survey ofQos Architectures, Multimedia Systems Journal – Special Issueon QoS Architecture, 6 (3), 1998, 138–151.
20. [20] S. Chuang and A.T.S. Chan, Dynamic QoS adaptation for mo-bile middleware, IEEE Transactions on Software Engineering,34 (6), 2008, 738–752.
21. [21] G. Blair, A. Andersen, L. Blair, G. Coulson, and D. Gancedo,Supporting dynamic Qos Management functions in a reflectivemiddleware platform, IEE Proceedings – Software, 147 (1),2000, 13–21.
22. [22] H.A. Duran-Limon, G.S. Blair, and G. Coulson, Adaptive re-source management in middleware: a survey, IEEE DistributedSystems Online 1541–4922, 5 (7), 2004, 1–13.
23. [23] P.K. Sharma, J.P. Loyall, G.T. Heineman, R.E. Schantz,R. Shapiro, and G. Duzan, Component-based dynamic QoSAdaptations in distributed real-time and embedded systems,International Symposium on Distributed Objects and Applica-tions (DOA), Agia Napa, Cyprus, 2004.
24. [24] J. Loyall and R. Schantz, Dynamic Qos Management in dis-tributed real-time embedded systems, in I. Lee, J. Leung, andS. Son (Eds.), Handbook of real-time and embedded systems(Boca Raton, FL, USA: CRC Press, 2008).
25. [25] C. Almeida, Handling QoS in a dynamic real-time environment,Proc. of the 8th IEEE Int. Workshop on Object-Oriented Real-Time Dependable Systems – WORDS 2003, IEEE, Guadala-jara, Mexico, 2003.
26. [26] C.M.R. Almeida, Component based QoS for real-time groupcommunications, Proc. of the IASTED Int. Conf. on Paral-lel and Distributed Computing and Networks – PDCN2004,Innsbruck, Austria, 2004.

Important Links:

• Abstract
• DOI: 10.2316/Journal.202.2011.3.202-2172
• From Journal (202) International Journal of Computers and Applications - 2011

Go Back