Our work addresses assertion retrieval and application in theorem proving systems or proof planning systems for classical firstorder logic. We propose a distributed mediator M between a mathematical knowledge base KB and a theorem proving system TP which is independent of the particular proof and knowledge representation formats of TP and KB and which applies generalized resolution in order to analyze the logical consequences of arbitrary assertions for a proof context at hand. We discuss the connection to proof planning and motivate an application in a project aiming at a tutorial dialogue system for mathematics
This paper is an overview of a variety of results, all centered around a common theme, namely embedd...
The integration of constraint solvers into proof planning has pushed the problem solving horizon. Pr...
AbstractIn this paper, we present the results of an ongoing effort in building user interfaces for p...
In this paper we address assertion retrieval and application in theorem proving systems or proof pla...
In this paper we address assertion retrieval and application in theorem proving systems or proof pla...
For nearly two decades human-oriented theorem proving techniques have been in the focus of interest ...
Abstract. In this paper we propose how proof planning systems can be extended by an automated learni...
AbstractKnowledge-based proof planning is a new paradigm in automated theorem proving (ATP) which sw...
AbstractProof planning is a technique for theorem proving which replaces the ultra-efficient but bli...
In this paper we present a framework for automated learning within mathematical reasoning systems. I...
AbstractWe describebarnacle: a co-operative interface to theclaminductive theorem proving system. Fo...
In this thesis we develop a comprehensive human-oriented theorem proving system that integrates seve...
Logic programming languages have many characteristics that indicate that they should serve as good i...
Research on automated and interactive theorem proving aims at the mechanization of logical reasoning...
In this contribution I advocate an open system for formalised mathematical reasoning that is able to...
This paper is an overview of a variety of results, all centered around a common theme, namely embedd...
The integration of constraint solvers into proof planning has pushed the problem solving horizon. Pr...
AbstractIn this paper, we present the results of an ongoing effort in building user interfaces for p...
In this paper we address assertion retrieval and application in theorem proving systems or proof pla...
In this paper we address assertion retrieval and application in theorem proving systems or proof pla...
For nearly two decades human-oriented theorem proving techniques have been in the focus of interest ...
Abstract. In this paper we propose how proof planning systems can be extended by an automated learni...
AbstractKnowledge-based proof planning is a new paradigm in automated theorem proving (ATP) which sw...
AbstractProof planning is a technique for theorem proving which replaces the ultra-efficient but bli...
In this paper we present a framework for automated learning within mathematical reasoning systems. I...
AbstractWe describebarnacle: a co-operative interface to theclaminductive theorem proving system. Fo...
In this thesis we develop a comprehensive human-oriented theorem proving system that integrates seve...
Logic programming languages have many characteristics that indicate that they should serve as good i...
Research on automated and interactive theorem proving aims at the mechanization of logical reasoning...
In this contribution I advocate an open system for formalised mathematical reasoning that is able to...
This paper is an overview of a variety of results, all centered around a common theme, namely embedd...
The integration of constraint solvers into proof planning has pushed the problem solving horizon. Pr...
AbstractIn this paper, we present the results of an ongoing effort in building user interfaces for p...