Computer Algebra Systems (CASs), such as Maple and Mathematica, are now widely used in both industry and education. In many areas of mathematics they perform well. However, many well-established methods in mathematics, such as definite integration via the fundamental theorem of calculus, rely on analytic side conditions which CASs in general do not support. This thesis presents our work with automatic, formal mathematics using the theorem prover PVS. Based on an existing real analysis library for PVS, we have implemented transcendental functions such as exp, cos, sin, tan and their inverses, and we have provided strategies to prove that a function is continuous at a given point. In general, this is undecidable, but using certain restriction...
Contains fulltext : 35027.pdf (publisher's version ) (Open Access
AbstractThis paper discusses the adaptation of the PVS theorem prover for performing analysis of rea...
The PVS Theorem prover is a widely used formal verification tool used for the analysis of safetycrit...
We describe an interface between version 6 of the Maple computer algebra system with the PVS automat...
We describe an interface between version 6 of the Maple computer algebra system with the PVS automat...
AbstractWe present hidden verification as a means to make the power of computational logic available...
This work is supported by funding from the EPSRC under grants EP/H500162, EP/F02309X and GR/S31242Re...
This paper reports the development of a proof strategy that integrates the MetiTarski theorem prover...
We assess the current state of research in the application of computer aided formal reasoning to com...
We assess the current state of research in the application of computer aided formal reasoning to com...
We present hidden verification as a means to make the power of computational logic available to user...
We give an overview of issues surrounding computer-verified theorem proving in the standard pure-mat...
We present in this paper a library to compute with Taylor models, a technique extending interval ari...
International audienceIn the recent years, numerous proof systems have improved enough to be used fo...
AbstractPresent day computer algebra systems (CASs) and proof assistants (PAs) are specialized progr...
Contains fulltext : 35027.pdf (publisher's version ) (Open Access
AbstractThis paper discusses the adaptation of the PVS theorem prover for performing analysis of rea...
The PVS Theorem prover is a widely used formal verification tool used for the analysis of safetycrit...
We describe an interface between version 6 of the Maple computer algebra system with the PVS automat...
We describe an interface between version 6 of the Maple computer algebra system with the PVS automat...
AbstractWe present hidden verification as a means to make the power of computational logic available...
This work is supported by funding from the EPSRC under grants EP/H500162, EP/F02309X and GR/S31242Re...
This paper reports the development of a proof strategy that integrates the MetiTarski theorem prover...
We assess the current state of research in the application of computer aided formal reasoning to com...
We assess the current state of research in the application of computer aided formal reasoning to com...
We present hidden verification as a means to make the power of computational logic available to user...
We give an overview of issues surrounding computer-verified theorem proving in the standard pure-mat...
We present in this paper a library to compute with Taylor models, a technique extending interval ari...
International audienceIn the recent years, numerous proof systems have improved enough to be used fo...
AbstractPresent day computer algebra systems (CASs) and proof assistants (PAs) are specialized progr...
Contains fulltext : 35027.pdf (publisher's version ) (Open Access
AbstractThis paper discusses the adaptation of the PVS theorem prover for performing analysis of rea...
The PVS Theorem prover is a widely used formal verification tool used for the analysis of safetycrit...