1 |
M. Takemoto, 'Fault-tolerant Object on Network-wide Distributed Object-oriented Systems for Future Telecommunications Applications,' IEEE, pp.139-146, April 1997
|
2 |
H.S. Kam, 'Fault Tolerant Cluster Comp-uting through Replication,' IEEE, pp. 756-761, February 1997
|
3 |
14th IEEE International Conference on Tools with Artificial Intelligence (ICTAl 2002), 'Fault-tolerant CORBA,' pp.4-6 November 2002
|
4 |
S. Moyer, S. Tsang, 'Home network con -figuration management and service as-surance,' Proceedings IEEE 4th International Workshop, pp.77-86, 2002
|
5 |
김태욱, 강명석, 김학배, 'TMR 시스템 기반의 Checkpointing 기법에 관한 연구,' 한국정보처리학회 추계 학술발표논문집, Vol.10, No.2, pp.397-400, 2003
과학기술학회마을
|
6 |
P. Felber, X. Defago, R. Guerraoui, 'Failure Detectors as First class Objects, Distributed Objects and Applications,' pp.132-141, Sept. 1999
|
7 |
Y. Wang, E. Anceaume, F. Brasileiro, M. Hurfin, 'Solving the Group Priority Inver-sion Problem in a Timed Asynchronous System,' IEEE Transactions on computers, vol.51, No.8, pp.900-915, August 2002
DOI
ScienceOn
|
8 |
H. Kim, K.G. Shin, C. Roark, 'On reconfiguration latency in fault-tolerant System,' Aerospace Applications Conference, Proceeding IEEE, pp. 287-301, Feb. 1995
|
9 |
H. Kim, K.G. Shin, 'Design and analysis of an optimal instruction retry policy for TMR controller computers,' IEEE Transactionon Computers, 45, (11), pp. 1217-1226, 1996
DOI
ScienceOn
|