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boundary="0000000000006823bd0587de4278" Subject: [Caml-list] [Deadline Extension] Formal Verification of Physical Systems (FVPS 2019) Reply-To: Umair Siddique X-Loop: caml-list@inria.fr X-Sequence: 17530 Errors-to: caml-list-owner@inria.fr Precedence: list Precedence: bulk Sender: caml-list-request@inria.fr X-no-archive: yes List-Id: List-Archive: List-Help: List-Owner: List-Post: List-Subscribe: List-Unsubscribe: --0000000000006823bd0587de4278 Content-Type: text/plain; charset="UTF-8" Content-Transfer-Encoding: quoted-printable =3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D= =3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D= =3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D 2nd Workshop on Formal Verification of Physical Systems (FVPS 2019) Colocated with CICM 2019 July 8, 2019 Prague, Czech Republic https://www.cicm-conference.org/2019/cicm.php?event=3Dfvps&menu=3Dgeneral =3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D= =3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D= =3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D =3D=3D=3D=3D=3D=3D Theme =3D=3D=3D=3D=3D=3D One of the main issues behind many failing systems is the ad-hoc verification approach that involves a variety of formalism and techniques for the modeling and analysis of various components of the present-age (cyber)-physical systems. For example, control and communication protocols are usually modeled using automata theory, and thus analyzed using model checking techniques, while the modeling of physical aspects often require multivariate calculus foundations, which are in turn analyzed using paper-and-pencil based analytical proofs, simulation or theorem proving. The fundamental differences between these modeling and analysis techniques limit us to analyze the whole system as one unit and thus miss many corner cases, which arise due to the operation of all the sub-components of the system together. One of the major concerns is that, despite the above-mentioned evident limitation in the analysis methods, many safety-critical systems, such as aerospace, smart-transportation, smart-grid and e-health, are increasingly involving physical elements. Moreover, we are moving towards integrating more complex physical elements in our engineering systems. For example, we are moving towards Quantum Computers to meet the high-performance needs. Similarly, phonic components are increasingly being advocated and used in aerospace applications due to their lightweight and temperature independence compared to traditional electronics-based components. Finally, the impact of physical components is relevant to both the safety and security of the overall system. For example, a malfunction in sensor measurement may lead to safety issues whereas sophisticated physics based side-channel (e.g., power and acoustic measurements) attacks lead to the security violation of the underlying system. The objective of the workshop is to gather scientists and engineers interested in formal verification techniques for the modeling, analysis, and verification of safety and security critical physical systems. We encourage submissions on interdisciplinary approaches that bring together formal methods and techniques from other knowledge areas such as quantum computing, control theory, biology, optimization theory, and artificial intelligence. =3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D Topics of Interest =3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D Topics of interest include (but are not limited to): General Topics Formalization of mathematics and physics theories Interactive and automated theorem proving for physical systems Model Checking algorithms and tools for physical systems Formalization of security and safety of physical systems Runtime verification of safety and security properties Combination of formal, semi-formal and informal approaches Formal verification of numerical algorithms Refinement based verification of physical systems Formalization of probability, reliability and statistical metrics Hybrid systems Benchmarks for physical systems Formal requirement specification and validation Formal verification and International Standards (e.g., ISO 26262, IEC 61508, DO 178) Formal verification for safety cases Application Domain Aerospace and avionics systems Automotive cyber-physical systems Robotics Smart-grids Smart transportation Human factor modeling and analysis Biological and healthcare systems =3D=3D=3D=3D=3D=3D=3D=3D=3D Submission =3D=3D=3D=3D=3D=3D=3D=3D=3D Authors should prepare their papers in one column style of CEUR-WS. There are two categories of submissions: Regular papers describing developed work with theoretical or experimental results (upto 15 pages) Short papers on experience reports, tools or work in progress with preliminary results or just new ideas for discussion (upto 6 pages) Electronic submission is done through EasyChair. The submissions will be reviewed by at least three PC members. At least one author of each accepted paper is expected to attend FVPS and presents her/his paper. The authors of the best papers will be invited to submit extended versions to a special issue of a Formal Methods/CPS Journal. =3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D Important Dates =3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D Full Paper Submission: May 17, 2019 Notification: June 17, 2019 Camera Ready: June 25, 2019 Workshop: July 8, 2019 =3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D Program Committee =3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D Aaron Dutle, NASA Langley Research Center, U.S.A. Hubert Garavel, INRIA Grenoble, France Osman Hasan, National University of Sciences and Technology, Pakistan (Chair) Atif Mashkoor, SCCH and JKU, Austria Julien Narboux, University of Strasbourg, France Peter Csaba =C3=96lveczky, University of Oslo, Norway Florian Rabe, FAU Erlangen-N=C3=BCrnberg and LRI Paris, France Sofiene Tahar, Concordia University, Canada (Chair) Umair Siddique, Blackberry QNX Software Systems, Canada (Chair) --0000000000006823bd0587de4278 Content-Type: text/html; charset="UTF-8" Content-Transfer-Encoding: quoted-printable
=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D= =3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D= =3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=C2=A0
2nd Workshop on Formal = Verification of Physical Systems (FVPS 2019)=C2=A0
=C2=A0 =C2=A0 = =C2=A0 =C2=A0 =C2=A0 =C2=A0 =C2=A0 =C2=A0 =C2=A0 =C2=A0 =C2=A0 =C2=A0 =C2= =A0 =C2=A0 =C2=A0 =C2=A0 =C2=A0 =C2=A0 =C2=A0 =C2=A0 Colocated with CICM 20= 19=C2=A0
=C2=A0 =C2=A0 =C2=A0 =C2=A0 =C2=A0 =C2=A0 =C2=A0 =C2=A0 = =C2=A0 =C2=A0 =C2=A0 =C2=A0 =C2=A0 =C2=A0 =C2=A0 =C2=A0 =C2=A0 =C2=A0 =C2= =A0 =C2=A0 =C2=A0 =C2=A0 =C2=A0 =C2=A0 =C2=A0 =C2=A0July 8, 2019=C2=A0
=C2=A0 =C2=A0 =C2=A0 =C2=A0 =C2=A0 =C2=A0 =C2=A0 =C2=A0 =C2=A0 =C2=A0= =C2=A0 =C2=A0 =C2=A0 =C2=A0 =C2=A0 =C2=A0 =C2=A0 =C2=A0 =C2=A0 =C2=A0 =C2= =A0 =C2=A0Prague, Czech Republic=C2=A0
=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D= =3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D= =3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=C2=A0

=3D=3D=3D=3D=3D=3D=C2=A0
Theme=C2=A0
=
=3D=3D=3D=3D=3D=3D=C2=A0

One of the main issu= es behind many failing systems is the ad-hoc verification approach that inv= olves a variety of formalism and techniques for the modeling and analysis o= f various components of the present-age (cyber)-physical systems. For examp= le, control and communication protocols are usually modeled using automata = theory, and thus analyzed using model checking techniques, while the modeli= ng of physical aspects often require multivariate calculus foundations, whi= ch are in turn analyzed using paper-and-pencil based analytical proofs, sim= ulation or theorem proving. The fundamental differences between these model= ing and analysis techniques limit us to analyze the whole system as one uni= t and thus miss many corner cases, which arise due to the operation of all = the sub-components of the system together. One of the major concerns is tha= t, despite the above-mentioned evident limitation in the analysis methods, = many safety-critical systems, such as aerospace, smart-transportation, smar= t-grid and e-health, are increasingly involving physical elements. Moreover= , we are moving towards integrating more complex physical elements in our e= ngineering systems. For example, we are moving towards Quantum Computers to= meet the high-performance needs. Similarly, phonic components are increasi= ngly being advocated and used in aerospace applications due to their lightw= eight and temperature independence compared to traditional electronics-base= d components. Finally, the impact of physical components is relevant to bot= h the safety and security of the overall system. For example, a malfunction= in sensor measurement may lead to safety issues whereas sophisticated phys= ics based side-channel (e.g., power and acoustic measurements) attacks lead= to the security violation of the underlying system.=C2=A0

The objective of the workshop is to gather scientists and engineer= s interested in formal verification techniques for the modeling, analysis, = and verification of safety and security critical physical systems. We encou= rage submissions on interdisciplinary approaches that bring together formal= methods and techniques from other knowledge areas such as quantum computin= g, control theory, biology, optimization theory, and artificial intelligenc= e.=C2=A0

=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D= =3D=C2=A0
Topics of Interest=C2=A0
=3D=3D=3D=3D=3D=3D= =3D=3D=3D=3D=3D=3D=3D=3D=C2=A0

Topics of interest = include (but are not limited to):=C2=A0
General Topics=C2=A0
Formalization of mathematics and physics theories=C2=A0
Int= eractive and automated theorem proving for physical systems=C2=A0
Model Checking algorithms and tools for physical systems=C2=A0
F= ormalization of security and safety of physical systems=C2=A0
Run= time verification of safety and security properties=C2=A0
Combina= tion of formal, semi-formal and informal approaches=C2=A0
Formal = verification of numerical algorithms=C2=A0
Refinement based verif= ication of physical systems=C2=A0
Formalization of probability, r= eliability and statistical metrics=C2=A0
Hybrid systems=C2=A0
Benchmarks for physical systems=C2=A0
Formal requirement s= pecification and validation=C2=A0
Formal verification and Interna= tional Standards (e.g., ISO 26262, IEC 61508, DO 178)=C2=A0
Forma= l verification for safety cases=C2=A0
Application Domain=C2=A0
Aerospace and avionics systems=C2=A0
Automotive cyber-phy= sical systems=C2=A0
Robotics=C2=A0
Smart-grids=C2=A0
Smart transportation=C2=A0
Human factor modeling and anal= ysis=C2=A0
Biological and healthcare systems=C2=A0

=
=3D=3D=3D=3D=3D=3D=3D=3D=3D=C2=A0
Submission=C2=A0
=3D=3D=3D=3D=3D=3D=3D=3D=3D=C2=A0

Authors s= hould prepare their papers in one column style of CEUR-WS. There are two ca= tegories of submissions:=C2=A0
Regular papers describing develope= d work with theoretical or experimental results (upto 15 pages)=C2=A0
=
Short papers on experience reports, tools or work in progress with pre= liminary results or just new ideas for discussion (upto 6 pages)=C2=A0


Electronic submission is done through E= asyChair. The submissions will be reviewed by at least three PC members. At= least one author of each accepted paper is expected to attend FVPS and pre= sents her/his paper.=C2=A0

The authors of the best= papers will be invited to submit extended versions to a special issue of a= Formal Methods/CPS Journal.=C2=A0

=3D=3D=3D=3D=3D= =3D=3D=3D=3D=3D=3D=3D=3D=C2=A0
Important Dates=C2=A0
= =3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=C2=A0

Full= Paper Submission: May 17, 2019=C2=A0
Notification: June 17, 2019= =C2=A0
Camera Ready: June 25, 2019=C2=A0
Workshop: July= 8, 2019=C2=A0

=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D= =3D=3D=3D=3D=3D=C2=A0
Program Committee=C2=A0
=3D=3D=3D= =3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=C2=A0

Aaro= n Dutle, NASA Langley Research Center, U.S.A.=C2=A0
Hubert Garave= l, INRIA Grenoble, France=C2=A0
Osman Hasan, National University = of Sciences and Technology, Pakistan (Chair)=C2=A0
Atif Mashkoor,= SCCH and JKU, Austria=C2=A0
Julien Narboux, University of Strasb= ourg, France=C2=A0
Peter Csaba =C3=96lveczky, University of Oslo,= Norway=C2=A0
Florian Rabe, FAU Erlangen-N=C3=BCrnberg and LRI Pa= ris, France=C2=A0
Sofiene Tahar, Concordia University, Canada (Ch= air)=C2=A0
Umair Siddique, Blackberry QNX Software Systems, Canad= a (Chair)=C2=A0
--0000000000006823bd0587de4278--