Paper Info
Title
A logic-based framework for reactive systems
Abstract
We sketch a logic-based framework in which computation consists of performing actions to generate a sequence of states, with the purpose of making a set of reactive rules in the logical form antecedents ( consequents all true. The antecedents of the rules are conjunctions of past or present conditions and events, and the consequents of the rules are disjunctions of conjunctions of future conditions and actions. The antecedents can be viewed as complex/composite events, and the consequents as complex/composite/macro actions or processes. States are represented by sets of atomic sentences, and can be viewed as global variables, relational databases, Herbrand models, or mental representations of the real world. Events, including actions, transform one state into another. The operational semantics maintains only a single, destructively updated current state, whereas the model-theoretic semantics treats the entire sequence of states, events and actions as a single model. The model-theoretic semantics can be viewed as the problem of generating a model that makes all the reactive rules true.
Year
DOI
Venue
2012
10.1007/978-3-642-32689-9_1
RuleML
Keywords
Field
DocType
single model,model-theoretic semantics,reactive system,entire sequence,composite event,operational semantics,reactive rule,atomic sentence,logic-based framework,future condition,herbrand model,current state,reactive systems
Operational semantics,Relational database,Computer science,Logical form,Artificial intelligence,Reactive system,Macro,Semantics,Sketch,Global variable
Conference
Citations 
PageRank 
References 
12
0.58
14
Authors
2
Name
Order
Citations
PageRank
Robert A. Kowalski141871066.36
Fariba Sadri21475173.43