In \cite{BockmayrWeispfenning01}, we give an overview of solving numerical constraints in the context of automated reasoning. Emphasis is on logical aspects of numerical constraints. We view them as atomic formulae in first-order predicate logic that are interpreted over some numerical domain like the real, rational, or integer numbers. We present various inference systems for reasoning with numerical constraints, describe the algebraic and geometric structure of their solution set, and present fundamental algorithms for deciding satisfiability, computing one or all solutions, and deducing new constraints
In this thesis, we present FSL, a constraint programming language for numerical computation in boole...
The paper presents a framework to describe, experiment and study the combination of different comput...
In this paper we present a new decision procedure for the satisfiability of Linear Arithmetic Logic ...
In \cite{BockmayrWeispfenning01}, we give an overview of solving numerical constraints in the contex...
. Constraints are an effective tool to define sets of data by means of logical formulae. Our goal he...
. Despite the rapid emergence and success of Inductive Logic Programming, problems still surround nu...
Colloque avec actes et comité de lecture.In this short paper, a unified framework for solving Boolea...
Constraint Logic Programming solvers on finite domains use constraints to prune those combinations o...
Linear numerical constraints and their first-order theory, whether defined over the reals or the. in...
AbstractUsing problem-specific background knowledge, computer programs developed within the framewor...
The inner logic structure of Exact Rational Operative Representation in arbitrary Fixed-Radix Number...
Traditional design of numerical software with result verification is based on the assumption that we...
A logic view of 0-1 integer programming problems, providing new insights into the structure of probl...
We introduce a logical foundation to reason on tree structures withconstraints on the number of node...
In the constraint satisfaction problem (CSP) formulation used in artificial intelligence, the variab...
In this thesis, we present FSL, a constraint programming language for numerical computation in boole...
The paper presents a framework to describe, experiment and study the combination of different comput...
In this paper we present a new decision procedure for the satisfiability of Linear Arithmetic Logic ...
In \cite{BockmayrWeispfenning01}, we give an overview of solving numerical constraints in the contex...
. Constraints are an effective tool to define sets of data by means of logical formulae. Our goal he...
. Despite the rapid emergence and success of Inductive Logic Programming, problems still surround nu...
Colloque avec actes et comité de lecture.In this short paper, a unified framework for solving Boolea...
Constraint Logic Programming solvers on finite domains use constraints to prune those combinations o...
Linear numerical constraints and their first-order theory, whether defined over the reals or the. in...
AbstractUsing problem-specific background knowledge, computer programs developed within the framewor...
The inner logic structure of Exact Rational Operative Representation in arbitrary Fixed-Radix Number...
Traditional design of numerical software with result verification is based on the assumption that we...
A logic view of 0-1 integer programming problems, providing new insights into the structure of probl...
We introduce a logical foundation to reason on tree structures withconstraints on the number of node...
In the constraint satisfaction problem (CSP) formulation used in artificial intelligence, the variab...
In this thesis, we present FSL, a constraint programming language for numerical computation in boole...
The paper presents a framework to describe, experiment and study the combination of different comput...
In this paper we present a new decision procedure for the satisfiability of Linear Arithmetic Logic ...