From mboxrd@z Thu Jan  1 00:00:00 1970
Return-Path: <Ylies.Falcone@imag.fr>
Received: from mail3-relais-sop.national.inria.fr (mail3-relais-sop.national.inria.fr [192.134.164.104])
	by sympa.inria.fr (Postfix) with ESMTPS id 0C2F17FCE8
	for <caml-list@sympa.inria.fr>; Fri, 15 Jan 2016 19:21:02 +0100 (CET)
Authentication-Results: mail3-smtp-sop.national.inria.fr; spf=None smtp.pra=ylies.falcone@imag.fr; spf=Pass smtp.mailfrom=Ylies.Falcone@imag.fr; spf=None smtp.helo=postmaster@rominette.imag.fr
Received-SPF: None (mail3-smtp-sop.national.inria.fr: no sender
  authenticity information available from domain of
  ylies.falcone@imag.fr) identity=pra; client-ip=129.88.30.17;
  receiver=mail3-smtp-sop.national.inria.fr;
  envelope-from="Ylies.Falcone@imag.fr";
  x-sender="ylies.falcone@imag.fr";
  x-conformance=sidf_compatible
Received-SPF: Pass (mail3-smtp-sop.national.inria.fr: domain of
  Ylies.Falcone@imag.fr designates 129.88.30.17 as permitted
  sender) identity=mailfrom; client-ip=129.88.30.17;
  receiver=mail3-smtp-sop.national.inria.fr;
  envelope-from="Ylies.Falcone@imag.fr";
  x-sender="Ylies.Falcone@imag.fr";
  x-conformance=sidf_compatible; x-record-type="v=spf1"
Received-SPF: None (mail3-smtp-sop.national.inria.fr: no sender
  authenticity information available from domain of
  postmaster@rominette.imag.fr) identity=helo;
  client-ip=129.88.30.17;
  receiver=mail3-smtp-sop.national.inria.fr;
  envelope-from="Ylies.Falcone@imag.fr";
  x-sender="postmaster@rominette.imag.fr";
  x-conformance=sidf_compatible
X-IronPort-AV: E=Sophos;i="5.22,300,1449529200"; 
   d="scan'208";a="160579691"
Received: from mx2.imag.fr (HELO rominette.imag.fr) ([129.88.30.17])
  by mail3-smtp-sop.national.inria.fr with ESMTP; 15 Jan 2016 19:21:01 +0100
Received: from globule.imag.fr (globule.imag.fr [129.88.34.238])
	by rominette.imag.fr (8.13.8/8.13.8) with ESMTP id u0FIKstW015898
	(version=TLSv1/SSLv3 cipher=DHE-RSA-AES128-SHA bits=128 verify=NO)
	for <caml-list@inria.fr>; Fri, 15 Jan 2016 19:20:55 +0100
Received: from macbookproylies.imag.fr (macbookproylies.imag.fr [129.88.50.207])
	(authenticated bits=0)
	by globule.imag.fr (8.13.8/8.13.8) with ESMTP id u0FIKvT0008271
	(version=TLSv1/SSLv3 cipher=DHE-RSA-AES128-SHA bits=128 verify=NO)
	for <caml-list@inria.fr>; Fri, 15 Jan 2016 19:20:57 +0100
From: =?utf-8?Q?Yli=C3=A8s_Falcone?= <ylies.falcone@imag.fr>
Content-Type: text/plain; charset=utf-8
Content-Transfer-Encoding: quoted-printable
Message-Id: <A3AB9CDA-994C-444F-90B3-2706DB6A4109@imag.fr>
Date: Fri, 15 Jan 2016 19:20:58 +0100
To: caml-list@inria.fr
Mime-Version: 1.0 (Mac OS X Mail 9.2 \(3112\))
X-Mailer: Apple Mail (2.3112)
X-Greylist: Sender IP whitelisted, not delayed by milter-greylist-4.2.2 (rominette.imag.fr [129.88.30.17]); Fri, 15 Jan 2016 19:20:55 +0100 (CET)
X-IMAG-MailScanner-Information: Please contact MI2S MIM  for more information
X-MailScanner-ID: u0FIKstW015898
X-IMAG-MailScanner: Found to be clean
X-IMAG-MailScanner-SpamCheck: 
X-IMAG-MailScanner-From: ylies.falcone@imag.fr
MailScanner-NULL-Check: 1453486859.24921@QXpVTlNB+fFtUdnmarVMFw
Subject: [Caml-list] RV 2016, Sept 23-30 2016, Madrid, Spain - 1st Call for
 Papers and Tutorials

RV 2016
16th International Conference on Runtime Verification
September 23-30, Madrid, Spain

http://rv2016.imag.fr


Scope

Runtime verification is concerned with monitoring and analysis of software =
and hardware system executions. Runtime verification techniques are crucial=
 for system correctness, reliability, and robustness; they are significantl=
y more powerful and versatile than conventional testing, and more practical=
 than exhaustive formal verification. Runtime verification can be used prio=
r to deployment, for testing, verification, and debugging purposes, and aft=
er deployment for ensuring reliability, safety, and security and for provid=
ing fault containment and recovery as well as online system repair. Topics =
of interest to the conference include:

- specification languages
- specification mining
- program instrumentation
- monitor construction techniques
- logging, recording, and replay
- runtime enforcement, fault detection, localization, containment, recovery=
 and repair
- program steering and adaptation
- metrics and statistical information gathering
- combination of static and dynamic analyses
- program execution visualization
- monitoring techniques for safety/mission-critical systems
- monitoring distributed systems, cloud services, and big data applications
- monitoring security and privacy policies

Application areas of runtime verification include cyber-physical systems, s=
afety/mission-critical systems, enterprise and systems software, autonomous=
 and reactive control systems, health management and diagnosis systems, and=
 system security and privacy.


Invited Speakers

The program of RV 2016 will feature invited talks from:

Gul Agha (University of Illinois at Urbana-Champaign, USA)
Oded Maler (CNRS and University of Grenoble-Alpes, France)
Fred B. Schneider (Cornell University, USA)


Overview

RV 2016 will be held September 23-30 in Madrid, Spain. RV 2016 will feature=
 the first summer school on Runtime Verification (September 23-25), two wor=
kshop days (September 26-25), and three conference days (September 28-30).


General Information on Submissions

All papers and tutorials will appear in the conference proceedings in an LN=
CS volume. Submitted papers and tutorials must use the LNCS/Springer style.=
 At least one author of each accepted paper and tutorial must attend RV 201=
6 to present the paper. Papers must be written in English and submitted ele=
ctronically (in PDF format) using the EasyChair system. The below page limi=
tations include all text and figures, but exclude references. Additional de=
tails omitted due to space limitations may be included in a clearly marked =
appendix that will be reviewed at the discretion of reviewers.

Research Papers Track

Research papers can be submitted in two categories: regular and short paper=
s. Papers in both categories will be reviewed by at least 3 members of the =
Program Committee.=20

Regular Papers (up to 15 pages) should present original unpublished results=
. Theoretical papers, system and application papers as well as case studies=
 on runtime verification are all welcome.=20
The Program Committee of RV 2015 will give a best paper award. A selection =
of accepted regular papers will be invited to appear in a special issue of =
the Springer Journal on Formal Methods in System Design.

Short Papers (up to 6 pages) may present novel but not necessarily thorough=
ly worked out ideas, for example emerging runtime verification techniques a=
nd applications, or techniques and applications that establish relationship=
s between runtime verification and other domains. Accepted short papers wil=
l be presented in special talk (15 minutes) and poster sessions.

Tool Papers Track

The aim of the RV 2016 tool track is to provide an opportunity for research=
ers and practitioners to show and to discuss the latest advances, experienc=
es and challenges in devising and developing reliable software tools for ru=
ntime verification. All tool papers will be reviewed by at least 3 members =
of the Tool Committee. An author of each accepted tool paper should give a =
15-20 minutes demonstration during the conference.

All tool papers must include information on tool availability, maturity, se=
lected experimental results and it should provide a link to a website conta=
ining the theoretical background and user guide. Furthermore, we strongly e=
ncourage authors to make their tools and benchmarks available with their su=
bmission.
We encourage tool papers to include a script in an appendix (not included i=
n the page count) describing how the demo will be conducted during the conf=
erence presentation with screenshots presenting step-by-step the tool=E2=80=
=99s capabilities, highlighting the main characteristics and the usage.

Tool papers can be submitted into two categories:=20

Regular Tool Papers (up to 8 pages). A tool paper in this category should p=
resent a new tool, a new tool component or significant and novel extensions=
 to existing tools supporting runtime verification. Each submission should =
be original and not published previously in a tool paper form.
Tool Exhibition Papers (up to 4 pages). A tool paper in this category can h=
ave been previously published. A tool paper in this category should be orie=
nted towards the tool usage and is an opportunity for the developers to pre=
sent them at RV 2016.


Tutorial Track

Tutorials are two-to-three-hour presentations on a selected topic. Addition=
ally, tutorial presenters will be offered to publish a paper of up to 20 pa=
ges in the LNCS conference proceedings.

A proposal for a tutorial must contain the subject of the tutorial, a propo=
sed timeline, a note on previous similar tutorials (if applicable) and the =
differences to this incarnation, and a biography of the presenter. The prop=
osal must not exceed 2 pages. Tutorial proposals will be reviewed by the Pr=
ogram Committee.


Important Dates

Research and tool papers as well as tutorials will follow the following tim=
eline:

Abstract deadline: May 8, 2016
Paper and tutorial deadline: May 15, 2016
Tutorial notification: June 1, 2016
Paper notification: July 11, 2016
Camera ready deadline: August 8, 2016
Summer school: September 23-25, 2016
Workshops and tutorials: September 26-27, 2016
Conference: September 28-30, 2016


Committees

Program Committee Chairs

Yli=C3=A8s Falcone, Univ. Grenoble-Alpes and Inria, France
Cesar Sanchez, IMDEA Software, Madrid, Spain

Tool Committee Chair

Klaus Havelund, NASA Jet Propulsion Laboratory, USA

Local Organization Chair

Juan E. Tapiador, Universidad Carlos III de Madrid, Spain

Program Committee

Erika Abraham, RWTH Aachen University, Germany
Howard Barringer, The University of Manchester, UK
Ezio Bartocci, TU Wien, Austria
Andreas Bauer, NICTA & Australian National University, Australia
Saddek Bensalem, Univ. Grenoble Alpes, France
Eric Bodden, Fraunhofer SIT and Technische University Darmstadt, Germany
Borzoo Bonakdarpour, McMaster University, Canada
Laura Bozzelli, Technical University of Madrid (UPM), Spain
Juan Caballero, IMDEA Software Institute, Spain
Wei-Ngan Chin, National University of Singapore, Singapore
Christian Colombo, University of Malta, Malta
Jyotirmoy Deshmukh, Toyota Technical Center, USA
Alexandre Donz=C3=A9, UC Berkeley EECS Department, USA
Yli=C3=A8s Falcone, Univ. Grenoble Alpes and Inria, France
Bernd Finkbeiner, Saarland University, Germany
Adrian Francalanza, University of Malta, Malta
Vijay Garg, The University of Texas at Austin, USA
Patrice Godefroid, Microsoft Research, USA
Susanne Graf, Univ. Grenoble Alpes and CNRS, France
Radu Grosu, Vienna University of Technology, Austria
Sylvain Hall=C3=A9, Universit=C3=A9 du Qu=C3=A9bec =C3=A0 Chicoutimi, Canada
Klaus Havelund, NASA Jet Propulsion Laboratory, USA
Johan Jaffar, National University of Singapore, Singapore
Thierry J=C3=A9ron, Inria Rennes =E2=80=93 Bretagne Atlantique, France
Johannes Kinder, Royal Holloway University of London, UK
Felix Klaedtke, NEC Europe Ltd., Germany
Kim G. Larsen, Aalborg University, Denmark
Axel Legay, Inria Rennes =E2=80=93 Bretagne Atlantique, France
Martin Leucker, University of L=C3=BCbeck, Germany
Benjamin Livshits, Microsoft Research, USA
Joao Louren=C3=A7o, Universidade Nova de Lisboa, Portugal
Rupak Majumdar, MPI-SWS, Germany
Leonardo Mariani, University of Milano Bicocca, Italy
David Naumann, Stevens Institute of Technology, USA
Dejan Nickovic, Austrian Institute of Technology, Austria
Gordon Pace, University of Malta, Malta
Doron Peled, Bar Ilan University, Israel
Lee Pike, Galois, Inc., USA
Grigore Rosu, University of Illinois at Urbana-Champaign, USA
Gwen Sala=C3=BCn, Univ. Grenoble Alpes and Inria, France
Cesar Sanchez, IMDEA Software Institute, Spain
Sriram Sankaranarayanan, University of Colorado Boulder, USA
Gerardo Schneider, University of Gothenburg, Sweden
Scott Smolka, Stony Brook University, USA
Oleg Sokolsky, University of Pennsylvania, USA
Bernhard Steffen, University of Dortmund, Germany
Scott Stoller, Stony Brook University, USA
Volder Stolz, University of Oslo, Norway
Jun Sun, Singapore University of Technology and Design, Singapore
Juan Tapiador, Universidad Carlos III de Madrid, Spain
Serdar Tasiran, Koc Univ., Turkey
Michael Whalen, University of Minnesota, USA
Eugen Zalinescu, ETH Zurich, Switzerland
Lenore Zuck, University of Illinois at Chicago, USA

Tool Committee

Steven Artz, EC Spride, Germany
Howard Barringer, The University of Manchester, UK
Ezio Bartocci, TU Wien, Austria
Martin Leucker, University of Luebeck, Germany
Gordon Pace, University of Malta, Malta
Giles Reger, The University of Manchester, UK
Julien Signoles, CEA, France
Oleg Sokolsky, University of Pennsylvania, USA
Bernhard Steffen, University of Dortmund, Germany
Nikolai Tillmann, Microsoft Research, USA
Eugen Zalinescu, ETH Zurich, Switzerland