Progress on Powertrain Verification Challenge with C2E2

Fan, Chuchu; Duggirala, Parasara Sridhar; Mitra, Sayan; Viswanathan, Mahesh

doi:10.29007/1kq2

Cited by 3 publications

(5 citation statements)

References 10 publications

(14 reference statements)

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“…A challenge problem was recently proposed to the research community by Toyota on the verification of a powertrain control system [25]. Although initial progress has been made on simplified versions of the system [26], the full benchmark model presents four main challenges for verification tools: (1) controllers that periodically actuate the plant, (2) lookup tables to describe the system dynamics, (3) the presence of time delays in the model, and (4) large system scale.…”

Section: Discussionmentioning

confidence: 99%

Periodically-Scheduled Controller Analysis Using Hybrid Systems Reachability and Continuization

Bak

Johnson

2015

2015 IEEE Real-Time Systems Symposium

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Cyber-physical systems (CPS) consist of physical entities that obey dynamical laws and interact with software components. A typical CPS implementation includes a discrete controller, where software periodically samples physical state and produces actuation commands according to a real-time schedule. Such a hybrid system can be modeled formally as a hybrid automaton. However, reachability tools to verify specifications for hybrid automata do not perform well on such periodicallyscheduled models. This is due to a combination of the large number of discrete jumps and the nondeterminism of the exact controller start time. In this paper, we demonstrate this problem and propose a solution, which is a validated abstraction mechanism where every behavior of the original sampled system is contained in the behaviors of a purely continuous system with an additive nondeterministic input. Reachability tools for hybrid automata can better handle such systems. We further improve the analysis by considering local analysis domains. We automate the proposed technique in the Hyst model transformation tool, and demonstrate its effectiveness in a case study analyzing the design of a yaw-damper for a jet aircraft.

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Section: Discussionmentioning

confidence: 99%

Periodically-Scheduled Controller Analysis Using Hybrid Systems Reachability and Continuization

Bak

Johnson

2015

2015 IEEE Real-Time Systems Symposium

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“…For testing purposes, the control system designers work with sets of driver profiles that essentially define families of switching signals across the different modes. Previous verification results on this problem have been reported in [21,27] on a simplified version of the powertrain control model.…”

Section: Powertrain Control Systemmentioning

confidence: 99%

DryVR: Data-Driven Verification and Compositional Reasoning for Automotive Systems

Fan

Mitra

et al. 2017

Computer Aided Verification

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We present the DryVR framework for verifying hybrid control systems that are described by a combination of a black-box simulator for trajectories and a white-box transition graph specifying mode switches. The framework includes (a) a probabilistic algorithm for learning sensitivity of the continuous trajectories from simulation data, (b) a bounded reachability analysis algorithm that uses the learned sensitivity, and (c) reasoning techniques based on simulation relations and sequential composition, that enable verification of complex systems under long switching sequences, from the reachability analysis of a simpler system under shorter sequences. We demonstrate the utility of the framework by verifying a suite of automotive benchmarks that include powertrain control, automatic transmission, and several autonomous and ADAS features like automatic emergency braking, lane-merge, and auto-passing controllers.

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“…In the second case study, we present the potential cyber-physical speci cation mismatches of the abstract fuel control (AFC) system benchmarks provided by Toyota [23,24], and further studied in [19]. The goal of these benchmarks is to determine the fuel rate that should be injected into the manifold to maintain the air-fuel ratio within a desirable range using the feedforward and Proportional-Integral (PI) controllers.…”

Section: Abstract Fuel Control System Benchmarksmentioning

confidence: 99%

“…The goal of these benchmarks is to determine the fuel rate that should be injected into the manifold to maintain the air-fuel ratio within a desirable range using the feedforward and Proportional-Integral (PI) controllers. Particularly, we focus on the third model of the benchmarks including a sequence of Simulink blocks and State ow chart that increase levels of sophistication and delity of the system [19]. The model consists of four operation modes and four continuous variables.…”

Section: Abstract Fuel Control System Benchmarksmentioning

confidence: 99%

“…The values of all constant parameters c j , j ∈ [1, 25], θ and ω are speci ed in [24]. We note that this system can be formally represented as a closed-loop CPIOA, which is the parallel composition of a plant and controller model, and both of them have three exogenous inputs including θ , ω, and sensor failure event fail_event [19].…”

Section: Abstract Fuel Control System Benchmarksmentioning

confidence: 99%

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Cyber-Physical Specification Mismatches

Nguyen¹,

Hoque²,

Bak³

et al. 2018

Preprint

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Embedded systems use increasingly complex software and are evolving into cyber-physical systems (CPS) with sophisticated interaction and coupling between physical and computational processes. Many CPS operate in safety-critical environments and have stringent certi cation, reliability, and correctness requirements. These systems undergo changes throughout their lifetimes, where either the software or physical hardware is updated in subsequent design iterations. One source of failure in safety-critical CPS is when there are unstated assumptions in either the physical or cyber parts of the system, and new components do not match those assumptions. In this work, we present an automated method towards identifying unstated assumptions in CPS. Dynamic speci cations in the form of candidate invariants of both the software and physical components are identi ed using dynamic analysis (executing and/or simulating the system implementation or model thereof). A prototype tool called Hynger (for HYbrid iNvariant GEneratoR) was developed that instruments Simulink/State ow (SLSF) model diagrams to generate traces in the input format compatible with the Daikon invariant inference tool, which has been extensively applied to software systems. Hynger, in conjunction with Daikon, is able to detect candidate invariants of several CPS case studies. We use the running example of a DC-to-DC power converter, and demonstrate that Hynger can detect a speci cation mismatch where a tolerance assumed by the software is violated due to a plant change. Another case study of an automotive control system is also introduced to illustrate the power of Hynger and Daikon in automatically identifying cyber-physical speci cation mismatches.CCS Concepts: •Theory of computation →Program speci cations; •Software and its engineering →Dynamic analysis;

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Progress on Powertrain Verification Challenge with C2E2

Cited by 3 publications

References 10 publications

Periodically-Scheduled Controller Analysis Using Hybrid Systems Reachability and Continuization

Periodically-Scheduled Controller Analysis Using Hybrid Systems Reachability and Continuization

DryVR: Data-Driven Verification and Compositional Reasoning for Automotive Systems

Cyber-Physical Specification Mismatches

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