AMAN Case Study

This paper describes a methodology for task model design and analysis using the Alloy Analyzer, a formal, declarative modeling tool. Our methodology leverages (1) a formalization of the HAMSTERS task modeling notation in Alloy and (2) a method for encoding a concrete task model and compose it with a model of the interactive system. The Analyzer then automatically verifies the overall model against desired properties, revealing counter-examples (if any) in terms of interaction scenarios between the operator and the system. In addition, we demonstrate how Alloy can be used to encode various types of operator errors (e.g., inserting or omitting an action) into the base HAMSTERS model and generate erroneous interaction scenarios. Our methodology is applied to a task model describing the interaction of a traffic air controller with a semi-autonomous Arrival MANager (AMAN) planning tool.

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Task Model Design and Analysis with Alloy

Cunha

Macedo

Kang

2023

Lecture Notes in Computer Science

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Modeling and Verifying an Arrival Manager Using Event-B

Mammar

Leuschel

2023

Lecture Notes in Computer Science

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The present paper describes an Event-B model of the Arrival MANager system (called AMAN), the case study provided by the ABZ'23 conference. The goal of this safety critical interactive system is to schedule the arrival times of aircraft at airports. This system includes two parts: an autonomous part which predicts the arrival time of an aircraft from external sources (flight plan information, radar and weather information, etc.) and an interface part that permits to the Air Traffic Controller (ATCo) to submit requests to AMAN like changes regarding the arrival times of aircraft. To formally model and verify this critical system, we use a correct-by-construction approach with the Event-B formal method and its refinement process. We mainly consider functional features of the case study; all proof obligations have been discharged using the provers of the Rodin platform under which we carried out our development. To help users understand how AMAN works and its main functionalities, a visualisation of the Event-B models was achieved using the VisB component of ProB. Our models have been validated using ProB by applying scenarios related to different functional aspects of the system.

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Validation-Driven Development

Stock,

Mashkoor,

Egyed

2023

Lecture Notes in Computer Science

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AMAN Case Study

Cited by 4 publications

References 6 publications

Task Model Design and Analysis with Alloy

Task Model Design and Analysis with Alloy

Modeling and Verifying an Arrival Manager Using Event-B

Validation-Driven Development

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