TY - GEN
T1 - Reachability of hybrid systems in space-time
AU - Frehse, Goran
N1 - Publisher Copyright:
© 2015 IEEE.
PY - 2015/11/4
Y1 - 2015/11/4
N2 - In set-based reachability, a cover of the reachable states of a hybrid system is obtained by repeatedly computing one-step successor states. It can be used to show safety or to obtain quantitative information, e.g., for measuring the jitter in an oscillator circuit. In general, one-step successors can only be computed approximately and are difficult to scale in the number of continuous variables. The approximation error requires particular attention since it can accumulate rapidly, leading to a coarse cover, prohibitive state explosion, or preventing termination. In this paper, we propose an approach with precise control over the balance between approximation error and scalability. By lazy evaluation of set representations, the precision can be increased in a targeted manner, e.g., to show that a particular transition is spurious. Each evaluation step scales well in the number of continuous variables. The set representations are particularly suited for clustering and containment checking, which are essential for reducing the state explosion. This provides the building blocks for re ning the cover of the reachable set just enough to show a property of interest. The approach is illustrated on several examples.
AB - In set-based reachability, a cover of the reachable states of a hybrid system is obtained by repeatedly computing one-step successor states. It can be used to show safety or to obtain quantitative information, e.g., for measuring the jitter in an oscillator circuit. In general, one-step successors can only be computed approximately and are difficult to scale in the number of continuous variables. The approximation error requires particular attention since it can accumulate rapidly, leading to a coarse cover, prohibitive state explosion, or preventing termination. In this paper, we propose an approach with precise control over the balance between approximation error and scalability. By lazy evaluation of set representations, the precision can be increased in a targeted manner, e.g., to show that a particular transition is spurious. Each evaluation step scales well in the number of continuous variables. The set representations are particularly suited for clustering and containment checking, which are essential for reducing the state explosion. This provides the building blocks for re ning the cover of the reachable set just enough to show a property of interest. The approach is illustrated on several examples.
KW - Hybrid systems
KW - reachability
KW - tools
KW - verification
U2 - 10.1109/EMSOFT.2015.7318258
DO - 10.1109/EMSOFT.2015.7318258
M3 - Conference contribution
AN - SCOPUS:84962225264
T3 - 2015 Proceedings of the International Conference on Embedded Software, EMSOFT 2015
SP - 41
EP - 50
BT - 2015 Proceedings of the International Conference on Embedded Software, EMSOFT 2015
PB - Institute of Electrical and Electronics Engineers Inc.
T2 - 13th International Conference on Embedded Software, EMSOFT 2015
Y2 - 4 October 2015 through 9 October 2015
ER -