English

A Framework for Current-State Opacity under Dynamic Information Release Mechanism

Systems and Control 2022-01-19 v2 Formal Languages and Automata Theory Systems and Control

Abstract

Opacity is an important information-flow security property that characterizes the plausible deniability of a dynamic system for its "secret" against eavesdropping attacks. As an information-flow property, the underlying observation model is the key in the modeling and analysis of opacity. In this paper, we investigate the verification of current-state opacity for discrete-event systems under Orwellian-type observations, i.e., the system is allowed to re-interpret the observation of an event based on its future suffix. First, we propose a new Orwellian-type observation model called the dynamic information release mechanism (DIRM). In the DIRM, when to release previous "hold on" events is state-dependent. Then we propose a new definition of opacity based on the notion of history-equivalence rather than the standard projection-equivalence. This definition is more suitable for observations that are not prefix-closed. Finally, we show that by constructing a new structure called the DIRM-observer, current-state opacity can be effectively verified under the DIRM. Computational complexity analysis as well as illustrative examples for the proposed approach are also provided. Compared with the existing Orwellian-type observation model, the proposed framework is more general in the sense that the information-release-mechanism is state-dependent and the corresponding definition of opacity is more suitable for non-prefix-closed observations.

Keywords

Cite

@article{arxiv.2012.04874,
  title  = {A Framework for Current-State Opacity under Dynamic Information Release Mechanism},
  author = {Junyao Hou and Xiang Yin and Shaoyuan Li},
  journal= {arXiv preprint arXiv:2012.04874},
  year   = {2022}
}
R2 v1 2026-06-23T20:50:11.149Z