Abstract. We present a set of rules based on full-angles as the basis of automated geometry theorem proving. We extend the idea of eliminating variables and points to the idea of eliminating lines. We also discuss how to combine the forward chaining and backward chaining to achieve higher efficiency. The prover based on the full-angle method has been used to produce short and elegant proofs for more than one hundred difficult geometry theorems. The proofs of many of those theorems produced by our previous area method are relatively long
This paper describes the results of a project intended to make it possible to put forward geometrica...
International audienceIn this paper, we demonstrate using videos the concrete use of the software Ge...
Two problem solving strategies, forward chaining and backward chaining, were compared to see how the...
A survey of the main procedures for automatic theorem proving in geometry is presented
Mechanical theorem proving in geometry plays an important role in the research of automated reasonin...
This paper presents a semi-automated methodology for generating geometric proof problems of the kind...
Using an approach, inspired by our modernisation of Lemoine’s Geometrography, this paper proposes a ...
Post-proceedings of ADG 2008 (Automated Deduction in Geometry)International audienceIntegrating deci...
Article dans revue scientifique avec comité de lecture.International audienceThis article presents o...
Abstract. In this paper we propose a bracket algebra based elimination method for automated generati...
Abstract. We present a method which can produce readable proofs for theorems of constructive type in...
Abstract: Wu’s Method for proving geometric theorems is well known. We inves-tigate the underlying a...
Includes bibliographical references (pages 70-71)Over twenty years ago, H.R. Gelernter developed a\u...
AbstractThis paper presents an interface for geometry proving. It is a combination of a dynamic geom...
This paper describes the results of a project intended to make it possible to put forward geometrica...
This paper describes the results of a project intended to make it possible to put forward geometrica...
International audienceIn this paper, we demonstrate using videos the concrete use of the software Ge...
Two problem solving strategies, forward chaining and backward chaining, were compared to see how the...
A survey of the main procedures for automatic theorem proving in geometry is presented
Mechanical theorem proving in geometry plays an important role in the research of automated reasonin...
This paper presents a semi-automated methodology for generating geometric proof problems of the kind...
Using an approach, inspired by our modernisation of Lemoine’s Geometrography, this paper proposes a ...
Post-proceedings of ADG 2008 (Automated Deduction in Geometry)International audienceIntegrating deci...
Article dans revue scientifique avec comité de lecture.International audienceThis article presents o...
Abstract. In this paper we propose a bracket algebra based elimination method for automated generati...
Abstract. We present a method which can produce readable proofs for theorems of constructive type in...
Abstract: Wu’s Method for proving geometric theorems is well known. We inves-tigate the underlying a...
Includes bibliographical references (pages 70-71)Over twenty years ago, H.R. Gelernter developed a\u...
AbstractThis paper presents an interface for geometry proving. It is a combination of a dynamic geom...
This paper describes the results of a project intended to make it possible to put forward geometrica...
This paper describes the results of a project intended to make it possible to put forward geometrica...
International audienceIn this paper, we demonstrate using videos the concrete use of the software Ge...
Two problem solving strategies, forward chaining and backward chaining, were compared to see how the...