Email Gateway (Aug 22 2022 at 13:12): Email Gateway (Aug 22 2022 at 13:12):From: Filip Marić <filipmatfbgacrs@gmail.com>
ADG 2016
Eleventh International Workshop on Automated Deduction in Geometry
Strasbourg, June, 27-29
http://icube-web.unistra.fr/adg2016/
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* New submission deadline: May 2 *
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EXTENDED DEADLINE May 2
Overview:
ADG is a forum to exchange ideas and views, to present research
results and progress, and to demonstrate software tools at the
intersection between geometry and automated deduction. The workshop is
held every two years. The previous editions of ADG were held in
Coimbra in 2014, Edinburgh in 2012, Munich in 2010, Shanghai in 2008,
Pontevedra in 2006, Gainesville in 2004, Hagenberg in 2002, Zurich in
2000, Beijing in 1998, and Toulouse in 1996. The 11th edition, ADG
2016, will be held in Strasbourg, France, June 27 – 29, 2016.
Scope:
Relevant topics include (but are not limited to):
polynomial algebra, invariant and coordinate-free methods,
probabilistic, synthetic, and logic approaches, techniques for
automated geometric reasoning from discrete mathematics,
combinatorics, and numerics;
symbolic and numeric methods for geometric computation, geometric
constraint solving, automated generation/reasoning and manipulation
with diagrams;
design and implementation of geometry software, special-purpose tools,
automated theorem provers, experimental studies;
applications of ADG to mechanics, geometric modelling, CAGD/CAD,
computer vision, robotics and education.
Submission Guidelines:
We invite the following types of submissions:
Extended abstracts
Full paper (maximum 20 pages)
The extended abstracts must address the following aspects explicitly.
Problem: What is the problem/question/objective?
Motivation: Why do we work on the problem? What is the importance?
State of the Art: What has been done already on the problem?
Contribution: What is the main original contribution?
Main Idea: What is the main idea underlying the contribution?
The submissions should follow the standard Springer LNCS Proceedings format.
Electronic submission as PDF is required via EasyChair (at
http://www.easychair.org/conferences/?conf=adg2016).
If you have any problems with the submission of your paper, or
questions concerning ADG 2016 or EasyChair, please contact
adg2016@easychair.org.
Refereeing and Publication:
The submitted contributions will be subject to a summary review by the
Program Committee, bearing in mind that this first review is mainly
for presentation, NOT for publication.
Digital publication of the full papers accepted for presentation will
be available at the workshop.
The authors of the full papers accepted for presentation at the
workshop will be to submit their full and/or revised papers for
publication in a formal proceedings of ADG 2016 after the workshop.
The full papers (submitted after the meeting) will be formally
reviewed by PC members and external referees.
All participants are encouraged to bring along posters on their
geometric work (irrespective of whether it was presented at the
workshop or not) for display during ADG 2016.
The accepted full papers will be published in the Springer Lecture
Notes in Artificial Intelligence (LNAI) series or Lecture Notes in
Computer Science (LNCS) series.
The proceedings of ADG 1996, ADG 1998, ADG 2000, ADG 2002, and ADG
2004, ADG 2006, ADG 2010, ADG 2012 and ADG 2014 appeared as LNAI
1360, LNAI 1669, LNAI 2061, LNAI 2930, LNAI 3763, LNAI 4869, LNCS
6877, LNAI 7993 and LNAI 9201 respectively.
Invited Speakers:
Predrag Janicic, Faculty of Mathematics, University of Belgrade
Title: Geometrisation of Geometry
Abstract: Coherent logic (CL) or geometry logic is a (semi-decidable)
fragment of FOL that can be considered to be an extension of
resolution logic. CL is suitable for formalization and automation of
various mathematical theories, including geometry. This talk will give
an overview of developments in geometry based on CL: automated theorem
provers for CL, CL-based formalizations of geometry, CL-based proof
representation for geometry, links between CL and geometry
construction problems, links between CL and geometrical illustrations,
etc.
Dominique Michelucci, University of Burgundy.
Title: Solving Constraints without Equations, Why and How
Abstract: Classically, when we solve geometric constraints, the latter
are represented with mathematical equations, or inequalities. These
equations or inequalities are represented explicitly, with trees or
DAGs or polynomials, etc. So it is easy to symbolically compute
derivatives, etc. It is possible to make proofs of geometric theorems.
But, recently, we meet more and more frequently problems for which
equations are not available for many reasons, e.g. when the shape is
the result of a procedure (subdivision surfaces; fractals). In this
new framework, shapes or geometric figures are the results of the
evaluation of black box procedures / algorithms / subprograms, feed
with some parameters. These programs contain if-then-else constructs,
loops, they compute fixed points, they call ODE and PDE solvers. Some
parameters are free : how to compute their values to satisfy specified
constraints ? How to solve without equations ?
Program Committee
Chair: Ileana Streinu (USA)
Members:
Michael Beeson (USA)
Francisco Botana (Spain)
John Bowers (USA)
Xiaoyu Chen (China)
Xiao-Shan Gao (China)
Tetsuo Ida (Japan)
Filip Maric (Serbia)
Pascal Mathis (France)
Julien Narboux (France)
Pavel Pech (Czech Republic)
Pedro Quaresma (Portugal)
Tomas Recio (Spain)
Pascal Schreck (France)
Meera Sitharam (USA)
Dongming Wang (China)
Bican Xia (China)
Last updated: Apr 23 2024 at 20:15 UTC