DocumentCode
1544215
Title
Formal Language Modeling and Simulations of Incident Management
Author
Shlayan, Neveen ; Kachroo, Pushkin
Author_Institution
Singapore MIT Alliance of Res. & Technol., Singapore, Singapore
Volume
13
Issue
3
fYear
2012
Firstpage
1226
Lastpage
1234
Abstract
Traffic incident management (TIM) is a multijurisdictional process. Complications with communications, compatibility, coordination, institutional responsibilities, and legal issues are inherent in TIM systems. Increased delay in incident clearance due to various conflicts has vital economical, safety, environmental, and social impacts. Therefore, a thorough and rigorous modeling of the system is necessary to better understand its properties and systematically discern issues that may arise. The goal of this study is to develop modeling tools for the incident management process. Formal language automata theory is proposed for modeling and analysis since incident management can be viewed as a series of discrete events. Using formal methods allows us to use tools that are well established in this field to systematically study incident management processes. Formal language and automata theory are the foundation for numerous hardware and software development with applications in digital design, compilers, and programming languages. Formal language and automata theory provide us with powerful tools for developing, analyzing, and debugging such models. A systematic structure of an incident management model permits methodical identification of the system´s “bugs.” This study demonstrates the development of models of some first response incident management agencies through a case study in the Las Vegas, NV, area using formal languages and automata theory. Sequence properties such as safety and liveness are verified for the developed models.
Keywords
automata theory; formal languages; road traffic; simulation; Las Vegas; NV; TIM systems; discrete events; formal language automata theory; formal language modeling; formal language simulations; formal methods; incident clearance; liveness; safety; sequence properties; traffic incident management; Analytical models; Automata; Concurrent computing; Formal languages; Mathematical model; Road transportation; Traffic control; Automata theory; formal language; incident management; intelligent transportation systems; liveness; safety property; verification;
fLanguage
English
Journal_Title
Intelligent Transportation Systems, IEEE Transactions on
Publisher
ieee
ISSN
1524-9050
Type
jour
DOI
10.1109/TITS.2012.2186296
Filename
6220887
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