Add to ORKGAbstract. In this paper, we report our first experiments in using learning-assisted automated reasoning for the formal analysis of physical systems. In particular, we investigate the performance of automated proofs as compared to interactive ones done in HOL for the verification of ray and electromagnetic optics. Apart from automation, we also provide brief ini-tial exploration of more general issues in formalization of physics, such as its presentation and foundations
In one sense, this article is a personal tribute to Woody Bledsoe. As such, the style will in genera...
International audienceThe European Erasmus+ project ARC-Automated Reasoning in the Class aims at imp...
In this paper we present a framework for automated learning within mathematical reasoning systems. I...
Abstract: This paper examines the relationship between explanations, proof and the use of computatio...
Abstract. Axiomatization of Physics (and Science in general) has many drawbacks that are correctly c...
We evaluate the success of the qualitative physics enterprise in automating expert reasoning about p...
The idea of mechanizing reasoning is an old dream that can be traced at least back to Leibniz. Since...
This paper describes the use of an automated theorem prover to analyse properties of interactive beh...
A central problem in automated reasoning is to deter-mine whether a conjecture ϕ, that represents a ...
We present a mathematical model formalizing the practice of science in nature. The model, which we n...
Today highly nontrivial mathematics is routinely being encoded in the computer, ensuring a reliabil-...
The way in which philosophers have thought about the scientific method and the nature of good scient...
This paper presents an analysis of the different types of reasoning and physical explanation used in...
The merits of representing scientific theories in formal logic are well-known. Expressing a scientif...
Formal reasoning about how users and systems interact poses a difficult challenge. Interactive syste...
In one sense, this article is a personal tribute to Woody Bledsoe. As such, the style will in genera...
International audienceThe European Erasmus+ project ARC-Automated Reasoning in the Class aims at imp...
In this paper we present a framework for automated learning within mathematical reasoning systems. I...
Abstract: This paper examines the relationship between explanations, proof and the use of computatio...
Abstract. Axiomatization of Physics (and Science in general) has many drawbacks that are correctly c...
We evaluate the success of the qualitative physics enterprise in automating expert reasoning about p...
The idea of mechanizing reasoning is an old dream that can be traced at least back to Leibniz. Since...
This paper describes the use of an automated theorem prover to analyse properties of interactive beh...
A central problem in automated reasoning is to deter-mine whether a conjecture ϕ, that represents a ...
We present a mathematical model formalizing the practice of science in nature. The model, which we n...
Today highly nontrivial mathematics is routinely being encoded in the computer, ensuring a reliabil-...
The way in which philosophers have thought about the scientific method and the nature of good scient...
This paper presents an analysis of the different types of reasoning and physical explanation used in...
The merits of representing scientific theories in formal logic are well-known. Expressing a scientif...
Formal reasoning about how users and systems interact poses a difficult challenge. Interactive syste...
In one sense, this article is a personal tribute to Woody Bledsoe. As such, the style will in genera...
International audienceThe European Erasmus+ project ARC-Automated Reasoning in the Class aims at imp...
In this paper we present a framework for automated learning within mathematical reasoning systems. I...