Tutorial: Software tools for hybrid systems verification transformation and synthesis C2E2 HyST and TuLiP

Duggirala P, Fan C, Potok M, Qi B, Mitra S, Viswanathan M, Bak S, Bogomolov S, Johnson T, Nguyen L, Schilling C, Sogokon A, Tran H, Xiang W. 2016. Tutorial: Software tools for hybrid systems verification transformation and synthesis C2E2 HyST and TuLiP. 2016 IEEE Conference on Control Applications. CCA: Control Applications , 7587948.

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Author
Duggirala, Parasara; Fan, Chuchu; Potok, Matthew; Qi, Bolun; Mitra, Sayan; Viswanathan, Mahesh; Bak, Stanley; Bogomolov, SergiyISTA ; Johnson, Taylor; Nguyen, Luan; Schilling, ChristianISTA ; Sogokon, Andrew
All
Abstract
Hybrid systems have both continuous and discrete dynamics and are useful for modeling a variety of control systems, from air traffic control protocols to robotic maneuvers and beyond. Recently, numerous powerful and scalable tools for analyzing hybrid systems have emerged. Several of these tools implement automated formal methods for mathematically proving a system meets a specification. This tutorial session will present three recent hybrid systems tools: C2E2, HyST, and TuLiP. C2E2 is a simulated-based verification tool for hybrid systems, and uses validated numerical solvers and bloating of simulation traces to verify systems meet specifications. HyST is a hybrid systems model transformation and translation tool, and uses a canonical intermediate representation to support most of the recent verification tools, as well as automated sound abstractions that simplify verification of a given hybrid system. TuLiP is a controller synthesis tool for hybrid systems, where given a temporal logic specification to be satisfied for a system (plant) model, TuLiP will find a controller that meets a given specification. © 2016 IEEE.
Publishing Year
Date Published
2016-10-10
Proceedings Title
2016 IEEE Conference on Control Applications
Publisher
IEEE
Article Number
7587948
Conference
CCA: Control Applications
Conference Location
Buenos Aires, Argentina
Conference Date
2016-09-19 – 2016-09-22
IST-REx-ID

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Duggirala P, Fan C, Potok M, et al. Tutorial: Software tools for hybrid systems verification transformation and synthesis C2E2 HyST and TuLiP. In: 2016 IEEE Conference on Control Applications. IEEE; 2016. doi:10.1109/CCA.2016.7587948
Duggirala, P., Fan, C., Potok, M., Qi, B., Mitra, S., Viswanathan, M., … Xiang, W. (2016). Tutorial: Software tools for hybrid systems verification transformation and synthesis C2E2 HyST and TuLiP. In 2016 IEEE Conference on Control Applications. Buenos Aires, Argentina : IEEE. https://doi.org/10.1109/CCA.2016.7587948
Duggirala, Parasara, Chuchu Fan, Matthew Potok, Bolun Qi, Sayan Mitra, Mahesh Viswanathan, Stanley Bak, et al. “Tutorial: Software Tools for Hybrid Systems Verification Transformation and Synthesis C2E2 HyST and TuLiP.” In 2016 IEEE Conference on Control Applications. IEEE, 2016. https://doi.org/10.1109/CCA.2016.7587948.
P. Duggirala et al., “Tutorial: Software tools for hybrid systems verification transformation and synthesis C2E2 HyST and TuLiP,” in 2016 IEEE Conference on Control Applications, Buenos Aires, Argentina , 2016.
Duggirala P, Fan C, Potok M, Qi B, Mitra S, Viswanathan M, Bak S, Bogomolov S, Johnson T, Nguyen L, Schilling C, Sogokon A, Tran H, Xiang W. 2016. Tutorial: Software tools for hybrid systems verification transformation and synthesis C2E2 HyST and TuLiP. 2016 IEEE Conference on Control Applications. CCA: Control Applications , 7587948.
Duggirala, Parasara, et al. “Tutorial: Software Tools for Hybrid Systems Verification Transformation and Synthesis C2E2 HyST and TuLiP.” 2016 IEEE Conference on Control Applications, 7587948, IEEE, 2016, doi:10.1109/CCA.2016.7587948.

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