Add to ORKGDespite decades of research, the takeup of formal methods for developing provably correct software in industry remains slow. One reason for this is the high cost of proof construction, an activity that, due to the complexity of the required proofs, is typically carried out using interactive theorem provers. In this paper we propose an agent-oriented architecture for interactive theorem proving with the aim of reducing the user interactions (and thus the cost) of constructing software verification proofs. We describe a prototype implementation of our architecture and discuss its application to a small, but non-trivial case study
International audienceA major problem in software engineering is assuring the correctness of a distr...
AbstractAutomated theorem proving consists in automatically (i.e. without any user interaction) disc...
We present a proof repository that provides a uniform theorem proving interface to virtually any fir...
Abstract. This paper discusses experiments with an agent oriented ap-proach to automated and interac...
This paper discusses experiments with an agent oriented approach to automated and interactive reason...
AbstractIn this contribution we propose an agent architecture for theorem proving which we intend to...
AbstractIn this paper, we present the results of an ongoing effort in building user interfaces for p...
Real-world applications of automated theorem proving require modern software environments that enabl...
We report on a commencing project that is con-cerned with the transfer of techniques from multi-agen...
In this paper, we propose a new software design of an online judge system for interactive theorem pr...
Item does not contain fulltextTo make verification a manageable part of the system development proce...
To make verification a manageable part of the system development process, comprehensibility and reus...
Abstract. The acceptance and usability of current interactive theorem proving environments is, among...
In this paper, we show that the flexible model-checking of multi-agent systems, implemented using ag...
We present an agent-based mechanism that acts as a mediator module between theorem proving systems a...
International audienceA major problem in software engineering is assuring the correctness of a distr...
AbstractAutomated theorem proving consists in automatically (i.e. without any user interaction) disc...
We present a proof repository that provides a uniform theorem proving interface to virtually any fir...
Abstract. This paper discusses experiments with an agent oriented ap-proach to automated and interac...
This paper discusses experiments with an agent oriented approach to automated and interactive reason...
AbstractIn this contribution we propose an agent architecture for theorem proving which we intend to...
AbstractIn this paper, we present the results of an ongoing effort in building user interfaces for p...
Real-world applications of automated theorem proving require modern software environments that enabl...
We report on a commencing project that is con-cerned with the transfer of techniques from multi-agen...
In this paper, we propose a new software design of an online judge system for interactive theorem pr...
Item does not contain fulltextTo make verification a manageable part of the system development proce...
To make verification a manageable part of the system development process, comprehensibility and reus...
Abstract. The acceptance and usability of current interactive theorem proving environments is, among...
In this paper, we show that the flexible model-checking of multi-agent systems, implemented using ag...
We present an agent-based mechanism that acts as a mediator module between theorem proving systems a...
International audienceA major problem in software engineering is assuring the correctness of a distr...
AbstractAutomated theorem proving consists in automatically (i.e. without any user interaction) disc...
We present a proof repository that provides a uniform theorem proving interface to virtually any fir...