Testing of Safety-Critical Software Embedded in an Artificial Heart

Deok, Sung; Jeong, Sehun; Yoo, Junbeom; Kim, Young-Gab

doi:10.1007/978-0-85729-133-2_9

Advances in Systems Safety 2010

DOI: 10.1007/978-0-85729-133-2_9

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Testing of Safety-Critical Software Embedded in an Artificial Heart

Sung Deok¹,

Sehun Jeong²,

Junbeom Yoo

et al.

Abstract: Software is being used more frequently to control medical devices such as artificial heart or robotic surgery system. While much of software safety issues in such systems are similar to other safety-critical systems (e.g., nuclear power plants), domain-specific properties may warrant development of customized techniques to demonstrate fitness of the system on patients. In this paper, we report results of a preliminary analysis done on software controlling a Hybrid Ventricular Assist Device (H-VAD) developed by… Show more

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2011

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Architectural Refactoring of Real-Time Software Design for Predictable Controls of Artificial Heart

Jeong¹,

Kim²,

Park³

et al. 2011

The KIPS Transactions:PartA

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Time-Triggered Architecture (TTA), one of real-time software design paradigms which executes tasks in timely manner, has long been advocated as being better suited in fore-sighting system behavior than event-triggered architecture (ETA). To gain this valuable feature of TTA, however, precise task designing process is mandatory. Alternatively, ETA tries to execute tasks whenever paired events are occurred. It provides intuitive and flexible basement to add/remove tasks and, moreover, better response time performance. However ETA is difficult to analyze because system behavior might be different depending on the order of interrupts detected by the system. Many previous researches recommended TTA when developing safety-critical real-time systems, but cost problem of task designing process and insufficient consensus for applying rigorous software engineering practice are still challenging in practice. This paper describes software refactoring process which applying TTA approach into ETA based embedded software in artificial heart system. We implemented dedicated interrupt monitoring program to capture existing tasks' real-time characteristics. Based on the captured information, proper task designing process is done. Real-time analysis using RMA (Rate-Monotonic Analysis) verified that new design guarantees timeliness of the system. Empirical experiments revealed that revised design is as efficient, when measured in terms of system's external output, as the old design and enhances predictability of the system behavior as well.

show abstract

Architectural Refactoring of Real-Time Software Design for Predictable Controls of Artificial Heart

Jeong¹,

Kim²,

Park³

et al. 2011

The KIPS Transactions:PartA

View full text Add to dashboard Cite

show abstract

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Testing of Safety-Critical Software Embedded in an Artificial Heart

Cited by 1 publication

References 2 publications

Architectural Refactoring of Real-Time Software Design for Predictable Controls of Artificial Heart

Architectural Refactoring of Real-Time Software Design for Predictable Controls of Artificial Heart

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