Hybrid Theorem Proving of Aerospace Systems: Applications and Challenges

Ghorbal, Khalil; Jeannin, Jean-Baptiste; Zawadzki, Erik; Platzer, André; Gordon, Geoffrey J.; Capell, Peter

doi:10.2514/1.i010178

Cited by 14 publications

(14 citation statements)

References 46 publications

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“…In this case the origin P is no longer defined, and Eqns. (10) are trivially true. The variables s and n are constants (s = 0, n = 0), their initial values are only restricted by the condition n 2 + s 2 = x 2 + y 2 in the assumption of the proposition, but they are not unique.…”

Section: Proposition 1 (Horizontal Reduction)mentioning

confidence: 90%

“…As the encounter evolves in (O, i, j) along x = r x , y = r y , its dimension-reduced version evolves in (P, k, ) along the differential equations s = −r v , n = 0, obtained by differentiating Eqns. (10) and canceling r v . The following proposition, proved in KeYmaera, combines both dynamics and shows that the absence of an NMAC of radius r p in (O, i, j) is equivalent to the absence of an NMAC of radius s p in (P, k, ).…”

Section: Reduction From 3d Dynamics To 2d Dynamicsmentioning

confidence: 99%

“…Given r x and r y , Eqns. (10) imply that the coordinates (x, y) are uniquely determined by the choice of (s, n), as long as r v = 0 (using r v 2 = r 2 x + r 2 y ). For any 2-dimensional configuration, the encounter can thus be considered a head-on…”

Section: Reduction From 3d Dynamics To 2d Dynamicsmentioning

confidence: 99%

See 2 more Smart Citations

A formally verified hybrid system for safe advisories in the next-generation airborne collision avoidance system

Jeannin

Ghorbal

Kouskoulas

et al. 2016

Int J Softw Tools Technol Transfer

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Section: Proposition 1 (Horizontal Reduction)mentioning

confidence: 90%

Section: Reduction From 3d Dynamics To 2d Dynamicsmentioning

confidence: 99%

See 1 more Smart Citation

A formally verified hybrid system for safe advisories in the next-generation airborne collision avoidance system

Jeannin

Ghorbal

Kouskoulas

et al. 2016

Int J Softw Tools Technol Transfer

Self Cite

View full text Add to dashboard Cite

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“…The formulation of the collision avoidance problem used for ACAS X consists of two aircraft, the ownship and the intruder, on a collision course 3 . The ACAS X model keeps record of the altitude of the intruder relative to the ownship, the aircraft climb rates, the produced advisory and the pilot response.…”

Section: The Acas X Modelmentioning

confidence: 99%

“…Researchers [2,3,11,12,13,14] have investigated hybrid techniques and theorem proving for other collision avoidance systems. Some researchers have developed testing frameworks for automated air-traffic control [1,4,5].…”

Section: Related Workmentioning

confidence: 99%

Exploring Model Quality for ACAS X

Giannakopoulou¹,

Guck²,

Schumann³

2016

FM 2016: Formal Methods

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The next generation airborne collision avoidance system, ACAS X, aims to provide robustness through a probabilistic model that represents sources of uncertainty. From this model, dynamic programming produces a look-up table that is used to give advisories to the pilot in real time. The model is not present in the final system and is therefore not included in the standard certification processes. Rather, the model is checked indirectly, by ensuring that ACAS X performs as well as, or better than, the state-of-the-art, TCAS. We claim that to build confidence in such systems, it is important to target model quality directly. We investigate this issue of model quality as part of our research on informing certification standards for autonomy. Using ACAS X as our driving example, we study the relationship between the probabilistic model and the real world, in an attempt to characterize the quality of the model for the purpose of building ACAS X. This paper presents model conformance metrics, their application to ACAS X, and the results that we obtained from our study.

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A Formally Verified Plasma Vertical Position Control Algorithm

Rosenberg

Fulton

2020

Lecture Notes in Computer Science

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Tokamak fusion reactors generate energy by using a magnetic control system to confine hot plasma in a toroidal chamber. In large reactors, incorrect implementation of plasma stabilization algorithms can result in significant physical damage to the reactor. This paper explains how a combination of formal verification and numerical simulation can be used to analyze the safety of a vertical stabilization algorithm of a tokamak fusion reactor.

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Hybrid Theorem Proving of Aerospace Systems: Applications and Challenges

Cited by 14 publications

References 46 publications

A formally verified hybrid system for safe advisories in the next-generation airborne collision avoidance system

A formally verified hybrid system for safe advisories in the next-generation airborne collision avoidance system

Exploring Model Quality for ACAS X

A Formally Verified Plasma Vertical Position Control Algorithm

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