2018
DOI: 10.1007/978-3-319-91334-6_18
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Formal Verification: Focused on the Verification Using a Plant Model

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Cited by 4 publications
(3 citation statements)
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“…However, it's worth noting that actual runtime traces could potentially be contaminated or lack complete properties suitable for verification. To ensure the accuracy and comprehensiveness of domain-specific rules, previous researches [164], [198] also explored semi-automated methodologies that combined automated data mining with manual domain expertise. VetPLC [164] established safety properties through a combination of automatic data mining and event extraction, complemented by domain knowledge in formulating safety specifications.…”
Section: C) Plc Program Runtime Levelmentioning
confidence: 99%
“…However, it's worth noting that actual runtime traces could potentially be contaminated or lack complete properties suitable for verification. To ensure the accuracy and comprehensiveness of domain-specific rules, previous researches [164], [198] also explored semi-automated methodologies that combined automated data mining with manual domain expertise. VetPLC [164] established safety properties through a combination of automatic data mining and event extraction, complemented by domain knowledge in formulating safety specifications.…”
Section: C) Plc Program Runtime Levelmentioning
confidence: 99%
“…It helps reduce the size of the formal model to be verified through closing an IAS system through a constrained plant model [93]. A good overview of plant modeling in formal verification can be found in [94]. In [95], a workflow to specify safety-critical systems, plants, and requirements as sequential function charts is proposed.…”
Section: Formal Verificationmentioning
confidence: 99%
“…AICE Model checking solution CTL Model Checker Chemical Brinksma'00 [45] SPIN Non-real-time model checking SPIN, Promela Chemical Bauer'04 [36] ISSTAE Model checking for timed and untimed SFC Cadence SMV, Uppaal Chemical Rawlings'18 [126] JCCE Handle combined invariance and reachability symbolic model checking, Chemical Rausch'98 [125] ACC Model checking solution SMV, Petri Net Manufacturing Bonfe'03 [43] ICEFTA Compare IEC 61131 and IEC 61499 SMV Manufacturing Cengic'06 [48] ICETFA Runtime environment for IEC 61499 Supremica (automata) Manufacturing Carlsson'12 [47] TII [112] NDSS Trusted safety verification platform TEG, symbolic execution Other Mechatronic Mesli'16 [114] HMS Multiple layer verification Uppaal Other mechatronics Darvas'17 [61] PPEECS ST to represent all languages PLCverif Other mechatronics Kottler'17 [98] SoutheastCon Detect malfunctions by intruding NuSMV NuSMV Other mechatronics Vyatkin'99 [133] ICETFA Verification for IEC 61499 Petri Net, CTL Generic Rossi'00 [127] ICAM Model checking using LD Cadence SMV Generic Bender'08 [37] MDAFA Model checking to detect race condition Petri net (TPN), Tina tool Generic Biha'11 [40] ACSAC Formal semantics for IL in Coq Coq with on-delay timers Generic Wang'13 [135] ACSAC Formal semantics in BIP models BIP Generic Kuzmin'13 [99] ACCS* Construct and verify PLC programs Cadence SMV Generic Darvas'16 [59] PMS Generic model representation PLCverif Generic Bohlender'18 [42] DES Mode abstraction for impact computation SMT Generic Galvao'18 [70] HELIX Review of plant models in form verification N/A Generic Luckeneder'18 [104] SAC Adaptive Cruise Control with model checking N/A Generic Huang'19 [87] Access Formal semantics of ST applied in C, Java N/A Generic Garcia'19 [72] ICCPS Translate DC code to PLC code and vice versa Theorem prover KeYmaera X Generic Zhang'19 [143] S&P Automated safety vetting of PLC code BUILDTSEQS on TPTL Generic Lamperiere'99 [100] ECC Survey SFC and LD validation N/A Survey Frey'00 [69] ICSMC survey based on A-F-M N/A Survey Mader'00 [106] DES Classification criteria of modelling N/A Survey ...…”
mentioning
confidence: 99%