Abyss: Sistemas Autonómicos Tolerantes a Falhas Maliciosas

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(Created page with "{{Project |Acronym=Abyss |Title=Sistemas Autonómicos Tolerantes a Falhas Maliciosas |Past Project=no |ResearchLine=Fault and Intrusion Tolerance in Open Distributed Systems (FIT...")
 
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|Acronym=Abyss
|Acronym=Abyss
|Title=Sistemas Autonómicos Tolerantes a Falhas Maliciosas
|Title=Sistemas Autonómicos Tolerantes a Falhas Maliciosas
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|Past Project=no
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|Past Project=yes
|ResearchLine=Fault and Intrusion Tolerance in Open Distributed Systems (FIT)
|ResearchLine=Fault and Intrusion Tolerance in Open Distributed Systems (FIT)
|Sponsor=FCT
|Sponsor=FCT
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|Summary=This project addresses the design of efficient Byzantine fault-tolerant systems by studying, designing, and implementing autonomic mechanisms that can adapt the BFT techniques to the characteristics of the execution environment and to the expected and observed threats. The project leverages, in a novel way, work from the autonomic computing and distributed fault-tolerance research areas.
|Summary=This project addresses the design of efficient Byzantine fault-tolerant systems by studying, designing, and implementing autonomic mechanisms that can adapt the BFT techniques to the characteristics of the execution environment and to the expected and observed threats. The project leverages, in a novel way, work from the autonomic computing and distributed fault-tolerance research areas.
|NavigatorsSite=FCUL
|NavigatorsSite=FCUL
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|Researchers=Alysson Bessani,  
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|Researchers=Alysson Bessani,
}}
}}

Latest revision as of 11:37, 27 September 2021


This project addresses the design of efficient Byzantine fault-tolerant systems by studying, designing, and implementing autonomic mechanisms that can adapt the BFT techniques to the characteristics of the execution environment and to the expected and observed threats. The project leverages, in a novel way, work from the autonomic computing and distributed fault-tolerance research areas.


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