In classical distributed systems, each process has a unique identity. Today, new distributed systems have emerged where a unique identity is not always possible to be assigned to each process. For example, in many sensor networks a unique identity is not possible to be included in each device due to its small storage capacity, reduced computational power, or the huge number of devices to be identified. In these cases, we have to work with anonymous distributed systems where processes cannot be identified. Consensus cannot be solved in classical and anonymous asynchronous distributed systems where processes can crash. To bypass this impossibility result, failure detectors are added to these systems. It is known that ? is the weakest failure ...
This paper investigates under which conditions informa-tion can be reliably shared and consensus can...
It is well-known that several fundamental problems of fault-tolerant distributed computing, such as...
International audienceThe paper considers the consensus problem in an n-process shared-memory distri...
In classical distributed systems, each process has a unique identity. Today, new distributed systems...
Abstract In classical distributed systems each process has a unique identity. To-day new distributed...
This paper is on failure detectors to solve the consensus problem in asynchronous systems made up of...
Due the multiplicity of loci of control, a main issue distributed systems have to cope with lies in ...
ABSTRACT This paper is on homonymous distributed systems where processes are prone to crash failu...
This paper investigates under which conditions information can be reliably shared and consensus can ...
This paper addresses the consensus problem in asynchronous systems prone to process crashes, where a...
This paper is on homonymous distributed systems where processes are prone to crash failures and have...
We determine what information about failures is necessary and sufficient to solve Consensus in async...
The distributed computing models typically assume every process in the system has a distinct identif...
The consensus problem is a fundamental paradigm for fault-tolerant distributed computing. It abstrac...
Abstract. We determine what information about failures is necessary and sufficient to solve Consensu...
This paper investigates under which conditions informa-tion can be reliably shared and consensus can...
It is well-known that several fundamental problems of fault-tolerant distributed computing, such as...
International audienceThe paper considers the consensus problem in an n-process shared-memory distri...
In classical distributed systems, each process has a unique identity. Today, new distributed systems...
Abstract In classical distributed systems each process has a unique identity. To-day new distributed...
This paper is on failure detectors to solve the consensus problem in asynchronous systems made up of...
Due the multiplicity of loci of control, a main issue distributed systems have to cope with lies in ...
ABSTRACT This paper is on homonymous distributed systems where processes are prone to crash failu...
This paper investigates under which conditions information can be reliably shared and consensus can ...
This paper addresses the consensus problem in asynchronous systems prone to process crashes, where a...
This paper is on homonymous distributed systems where processes are prone to crash failures and have...
We determine what information about failures is necessary and sufficient to solve Consensus in async...
The distributed computing models typically assume every process in the system has a distinct identif...
The consensus problem is a fundamental paradigm for fault-tolerant distributed computing. It abstrac...
Abstract. We determine what information about failures is necessary and sufficient to solve Consensu...
This paper investigates under which conditions informa-tion can be reliably shared and consensus can...
It is well-known that several fundamental problems of fault-tolerant distributed computing, such as...
International audienceThe paper considers the consensus problem in an n-process shared-memory distri...