Add to ORKGIn this paper we extend the class of differentially algebraic functions computed by Shannon's General Purpose Analog Computer (GPAC). We relax Pour-El's definition of GPAC to obtain new operators and we use recursion theory on the reals to define a new class of analog computable functions. We show that a function F(t,x) which simulates t time-steps of a Turing machine on input x, and more generally a functional that allows us to define the t'th iterate of a definable function, are definable in this system. Therefore, functions like Gamma which are not generable by GPAC become computable in this extensio
In this paper we revisit one of the rst models of analog computation, Shannon's General Purpose An...
AbstractIn the last decade, there have been several attempts to understand the relations between the...
We consider various extensions and modifications of Shannon's General Purpose Analog Computer, ...
In this paper we extend the class of differentially algebraic functions computed by Shannon's Genera...
Shannon's General Purpose Analog Computer (GPAC) is an elegant model of analog computation in c...
International audienceThe first theoretical study of analog computation was published by Shannon in ...
AbstractIn this paper we show that Shannon's general purpose analog computer (GPAC) is equivalent to...
This paper revisits one of the rst models of analog computation, the General Purpose Analog Comput...
This paper revisits one of the rst models of analog computation, the General Purpose Analog Comput...
AbstractShannon's general purpose analog computer (GPAC) is an elegant model of analog computation i...
This paper revisits one of the rst models of analog computation, the General Purpose Analog Comput...
In the last decade, the field of analog computation has experienced renewed interest. In particular,...
AbstractShannon's general purpose analog computer (GPAC) is an elegant model of analog computation i...
AbstractIn this paper we show that Shannon's general purpose analog computer (GPAC) is equivalent to...
In this paper we revisit one of the rst models of analog computation, Shannon's General Purpose An...
In this paper we revisit one of the rst models of analog computation, Shannon's General Purpose An...
AbstractIn the last decade, there have been several attempts to understand the relations between the...
We consider various extensions and modifications of Shannon's General Purpose Analog Computer, ...
In this paper we extend the class of differentially algebraic functions computed by Shannon's Genera...
Shannon's General Purpose Analog Computer (GPAC) is an elegant model of analog computation in c...
International audienceThe first theoretical study of analog computation was published by Shannon in ...
AbstractIn this paper we show that Shannon's general purpose analog computer (GPAC) is equivalent to...
This paper revisits one of the rst models of analog computation, the General Purpose Analog Comput...
This paper revisits one of the rst models of analog computation, the General Purpose Analog Comput...
AbstractShannon's general purpose analog computer (GPAC) is an elegant model of analog computation i...
This paper revisits one of the rst models of analog computation, the General Purpose Analog Comput...
In the last decade, the field of analog computation has experienced renewed interest. In particular,...
AbstractShannon's general purpose analog computer (GPAC) is an elegant model of analog computation i...
AbstractIn this paper we show that Shannon's general purpose analog computer (GPAC) is equivalent to...
In this paper we revisit one of the rst models of analog computation, Shannon's General Purpose An...
In this paper we revisit one of the rst models of analog computation, Shannon's General Purpose An...
AbstractIn the last decade, there have been several attempts to understand the relations between the...
We consider various extensions and modifications of Shannon's General Purpose Analog Computer, ...