We propose the use of formal languages of infinite words over the alphabet of task identifiers as an interface between control designs and software implementations. We argue that this approach is more flexible than the classical real-time scheduling framework based on periodic tasks, and allows composition of interfaces by language-theoretic operations. We show that finite automata over infinite words offer analyzable representation and can capture many interesting interface specifications such as exponential stability of switched linear systems
We present a generalization of finite automata using Petri nets as control, called Concurrent Finite...
For embedded control systems, a schedule for the allo-cation of resources to a software component ca...
For embedded control systems, a schedule for the allo-cation of resources to a software component ca...
Abstract. We propose the use of formal languages of infinite words over the alphabet of task identif...
We propose the use of formal languages of infinite words over the alphabet of task identifiers as an...
. We propose timed (finite) automata to model the behavior of realtime systems over time. Our defini...
Abstract. The automata-theoretic approach to linear temporal logic uses the theory of automata as a ...
AbstractWe propose timed (finite) automata to model the behavior of real-time systems over time. Our...
International audienceWe introduce a new way of specifying rich behaviors for discrete-time dynamica...
We introduce an infinite proper subset of regular languages (RL), so called the state change couple ...
Timed languages are introduced as a class of languages that accepts timed words: sequences of events...
. The automata-theoretic approach to linear temporal logic uses the theory of automata as a unifying...
Centralized and decentralized control of logical discrete-event systems are considered. A fundamenta...
We propose synchronous interfaces, a new interface theory for discrete-time systems. We use an appli...
Abstract. We propose synchronous interfaces, a new interface theory for discrete-time systems. We us...
We present a generalization of finite automata using Petri nets as control, called Concurrent Finite...
For embedded control systems, a schedule for the allo-cation of resources to a software component ca...
For embedded control systems, a schedule for the allo-cation of resources to a software component ca...
Abstract. We propose the use of formal languages of infinite words over the alphabet of task identif...
We propose the use of formal languages of infinite words over the alphabet of task identifiers as an...
. We propose timed (finite) automata to model the behavior of realtime systems over time. Our defini...
Abstract. The automata-theoretic approach to linear temporal logic uses the theory of automata as a ...
AbstractWe propose timed (finite) automata to model the behavior of real-time systems over time. Our...
International audienceWe introduce a new way of specifying rich behaviors for discrete-time dynamica...
We introduce an infinite proper subset of regular languages (RL), so called the state change couple ...
Timed languages are introduced as a class of languages that accepts timed words: sequences of events...
. The automata-theoretic approach to linear temporal logic uses the theory of automata as a unifying...
Centralized and decentralized control of logical discrete-event systems are considered. A fundamenta...
We propose synchronous interfaces, a new interface theory for discrete-time systems. We use an appli...
Abstract. We propose synchronous interfaces, a new interface theory for discrete-time systems. We us...
We present a generalization of finite automata using Petri nets as control, called Concurrent Finite...
For embedded control systems, a schedule for the allo-cation of resources to a software component ca...
For embedded control systems, a schedule for the allo-cation of resources to a software component ca...