In this paper we present algorithms for ecient image computation for systems represented as arithmetic constraints. We use automata as a symbolic representation for such systems. We show that, for a common class of systems, given a set of states and a transition, the time required for image computation is bounded by the product of the sizes of the automata encoding the input set and the transition. We also show that the size of the result has the same bound. We obtain these results using a linear time projection operation for automata encoding linear arithmetic constraints. We also experimentally show the bene ts of using these algorithms by comparing our implementation with LASH and BRAIN
Abstract. We describe an algebra of Edge-Valued Decision Diagrams (EVMDDs) to encode arithmetic func...
Abstract. In this paper, we analyze limits of approximation techniques for (non-linear) continuous i...
The automata-theoretic approach to the problem of program verification requires efficient minimizati...
In this paper we discuss efficient symbolic representations for infinite-state systems specified usi...
AbstractChecking infinite-state systems is frequently done by encoding infinite sets of states as re...
Checking infinite-state systems is frequently done by encoding infinite sets of states as regular la...
Abstract. This work studies automata-based symbolic data structures for representing infinite sets. ...
Computing the set of states reachable in one step from a given set of states, i.e. image computation...
Computing the set of states reachable in one step from a given set of states, i.e. image computation...
We define a symbolic determinisation procedure for a class of infinite-state systems, which consists...
Abstract. Binary Decision Diagrams (BDDs) are normally used in symbolic state space traversal to imp...
This paper presents an overview of algorithms for constructing automata from linear arithmetic const...
This paper presents an overview of algorithms for constructing automata from linear arithmetic const...
Model checking is the process of verifying whether a model of a concurrent system satisfies a specif...
We develop an automata-theoretic framework for reasoning about linear properties of infinite-state s...
Abstract. We describe an algebra of Edge-Valued Decision Diagrams (EVMDDs) to encode arithmetic func...
Abstract. In this paper, we analyze limits of approximation techniques for (non-linear) continuous i...
The automata-theoretic approach to the problem of program verification requires efficient minimizati...
In this paper we discuss efficient symbolic representations for infinite-state systems specified usi...
AbstractChecking infinite-state systems is frequently done by encoding infinite sets of states as re...
Checking infinite-state systems is frequently done by encoding infinite sets of states as regular la...
Abstract. This work studies automata-based symbolic data structures for representing infinite sets. ...
Computing the set of states reachable in one step from a given set of states, i.e. image computation...
Computing the set of states reachable in one step from a given set of states, i.e. image computation...
We define a symbolic determinisation procedure for a class of infinite-state systems, which consists...
Abstract. Binary Decision Diagrams (BDDs) are normally used in symbolic state space traversal to imp...
This paper presents an overview of algorithms for constructing automata from linear arithmetic const...
This paper presents an overview of algorithms for constructing automata from linear arithmetic const...
Model checking is the process of verifying whether a model of a concurrent system satisfies a specif...
We develop an automata-theoretic framework for reasoning about linear properties of infinite-state s...
Abstract. We describe an algebra of Edge-Valued Decision Diagrams (EVMDDs) to encode arithmetic func...
Abstract. In this paper, we analyze limits of approximation techniques for (non-linear) continuous i...
The automata-theoretic approach to the problem of program verification requires efficient minimizati...