Distributed proofs are mechanisms enabling the nodes of a network to collectively and efficiently check the correctness of Boolean predicates on the structure of the network (e.g. having a specific diameter), or on data structures distributed over the nodes (e.g. a spanning tree). We consider well known mechanisms consisting of two components: a prover that assigns a certificate to each node, and a distributed algorithm called verifier that is in charge of verifying the distributed proof formed by the collection of all certificates. We show that many network predicates have distributed proofs offering a high level of redundancy, explicitly or implicitly. We use this remarkable property of distributed proofs to establish perfect tradeoffs be...
This paper tackles the issue of checking that all copies of a large data set replicated at several n...
International audienceIn a distributed locally-checkable proof, we are interested in checking the le...
International audienceA proof-labeling scheme, introduced by Korman, Kutten and Peleg [PODC 2005], i...
Distributed proofs are mechanisms that enable the nodes of a network to collectively and efficiently...
Distributed proofs are mechanisms enabling the nodes of a network to collectively and efficiently ch...
The study of interactive proofs in the context of distributed network computing is a novel topic, re...
In distributed proof construction systems, information release policies can make it unlikely that an...
In distributed proof construction systems, information release policies can make it unlikely that an...
In distributed proof construction systems, information release policies can make it unlikely that an...
In this work we study the cost of local and global proofs on distributed verification. In this setti...
We extend the notion of distributed decision in the framework of distributed network computing, insp...
We extend the notion of distributed decision in the framework of distributed network computing, insp...
Previous work has shown that distributed authorization systems that fail to sample a consistent snap...
Previous work has shown that distributed authorization systems that fail to sample a consistent snap...
This paper tackles the issue of checking that all copies of a large data set replicated at several n...
International audienceIn a distributed locally-checkable proof, we are interested in checking the le...
International audienceA proof-labeling scheme, introduced by Korman, Kutten and Peleg [PODC 2005], i...
Distributed proofs are mechanisms that enable the nodes of a network to collectively and efficiently...
Distributed proofs are mechanisms enabling the nodes of a network to collectively and efficiently ch...
The study of interactive proofs in the context of distributed network computing is a novel topic, re...
In distributed proof construction systems, information release policies can make it unlikely that an...
In distributed proof construction systems, information release policies can make it unlikely that an...
In distributed proof construction systems, information release policies can make it unlikely that an...
In this work we study the cost of local and global proofs on distributed verification. In this setti...
We extend the notion of distributed decision in the framework of distributed network computing, insp...
We extend the notion of distributed decision in the framework of distributed network computing, insp...
Previous work has shown that distributed authorization systems that fail to sample a consistent snap...
Previous work has shown that distributed authorization systems that fail to sample a consistent snap...
This paper tackles the issue of checking that all copies of a large data set replicated at several n...
International audienceIn a distributed locally-checkable proof, we are interested in checking the le...
International audienceA proof-labeling scheme, introduced by Korman, Kutten and Peleg [PODC 2005], i...