Friday, March 14, 2014

[Comp-neuro] Deadline extension, April 12 || ADVCOMP 2014 || August 24 - 28, 2014 - Rome, Italy


Please consider to contribute to and/or forward to the appropriate groups the following opportunity to submit and publish original scientific results to ADVCOMP 2014.
The submission deadline is April 12, 2014.
Authors of selected papers will be invited to submit extended article versions to one of the IARIA Journals:

============== ADVCOMP 2014 | Call for Papers ===============


ADVCOMP 2014, The Eighth International Conference on Advanced Engineering Computing and Applications in Sciences

August 24 - 28, 2014 - Rome, Italy

Submission page:

General page:

Call for Papers:

- regular papers
- short papers (work in progress)
- posters
- ideas
- presentations
- demos
- doctoral forum submissions

Proposals for:
- symposia
- workshops

Submission deadline: April 12, 2014

Sponsored by IARIA,
Extended versions of selected papers will be published in IARIA Journals:
Print proceedings will be available via Curran Associates, Inc.:
Articles will be archived in the free access ThinkMind Digital Library:

The topics suggested by the conference can be discussed in term of concepts, state of the art, research, standards, implementations, running experiments, applications, and industrial case studies. Authors are invited to submit complete unpublished papers, which are not under review in any other conference or journal in the following, but not limited to, topic areas.

All tracks are open to both research and industry contributions, in terms of Regular papers, Posters, Work in progress, Technical/marketing/business presentations, Demos, Tutorials, and Panels.

Before submission, please check and conform with the Editorial rules:

ADVCOMP 2014 Topics (topics and submission details: see CfP on the site)

Advances on computing theories

Finite-state machines; Petri nets /stochastic/colored/probabilistic/etc; Genetic algorithms; Machine learning theory; Prediction theory; Bayesian theory /statistics/filtering/estimation/reasoning/rating/etc; Markov chains/process/model/etc; Graphs theories

Advances in computation methods

Hybrid computational methods; Advanced numerical algorithms; Differential calculus; Matrix perturbation theory; Rare matrices; Fractals & super-fractal algorithms; Random graph dynamics; Multi-dimensional harmonic estimation

Computational logics

Knowledge-based systems and automated reasoning; Logical issues in knowledge representation /non-monotonic reasoning/belief; Specification and verification of programs and systems; Applications of logic in hardware and VLSI; Natural language, concurrent computation, planning; Deduction and reasoning; Logic of computation; Dempster-Shafer theory; Fuzzy theory/computation/logic/etc

Advances on computing mechanisms

Clustering large and high dimensional data; Data fusion and aggregation; Biological sequence analysis; Biomecatronics mechanisms; Biologically inspired mechanisms; System theory and control mechanisms; Multi-objective evolutionary algorithms; Constraint-based algorithms; Ontology-based reasoning; Topology and structure patterns; Geometrical pattern similarity; Strong and weak symmetry; Distortion in coordination mechanisms

Computing techniques

Distributed computing; Parallel computing; Grid computing; Autonomic computing; Cloud computing; Development of numerical and scientific software-based systems; Pattern-based computing; Finite-element method computation; Elastic models; Optimization techniques; Simulation techniques; Stream-based computing

Resource intensive applications and services (RIAS)

Fundamentals on RIAS; Basic algorithms for RIAS; Communications intensive; Process intensive; Data-intensive computing; Operational intensive; Cloud-computing intensiveness; User intensive; Technology intensive; Control intensive; Complex RIAS; Bioinformatics computation; Large scale ehealth systems; Pharmaceutical/drug computation; Weather forecast computation; Earthquake simulations; Geo-spatial simulations; Spatial programs; Real-time manufacturing systems; Transportation systems; Avionic systems; Economic/financial systems; Electric-power systems

Computational geometry

Theoretical computational geometry; Applied computational geometry; Design and analysis of geometric algorithms; Design and analysis of geometric algorithms and data structures; Discrete and combinatorial geometry and topology; Data structures (Voronoi Diagrams, Delaunay triangulations, etc.); Experimental evaluation of geometric algorithms and heuristics; Numerical performance of geometric algorithms; Geometric computations in parallel and distributed environments; Geometric data structures for mesh generation; Geometric methods in computer graphics; Solid modeling; Space Partitioning; Special applications (animation of geometric algorithms, manufacturing, computer graphics and image processing, computer-aided geometry design, solid geometry)

Interdisciplinary computing

Computational /physics, chemistry, biology/ algorithms; Graph-based modeling and algorithms; Computational methods for /crystal, protein/ structure prediction; Computation for multi-material structure; Modeling and simulation of large deformations and strong shock waves; Computation in solid mechanics; Remote geo-sensing; Interdisciplinary computing in music and arts

Cloud computing

Hardware-as-a-service; Software-as-a-service [SaaS applicaitions]; Platform-as-service; On-demand computing models; Cloud Computing programming and application development; Scalability, discovery of services and data in Cloud computing infrastructures; Privacy, security, ownership and reliability issues; Performance and QoS; Dynamic resource provisioning; Power-efficiency and Cloud computing; Load balancing; Application streaming; Cloud SLAs, business models and pricing policies; Custom platforms; Large-scale compute infrastructures; Managing applications in the clouds; Data centers; Process in the clouds; Content and service distribution in Cloud computing infrastructures; Multiple applications can run on one computer (virtualization a la VMWare); Grid computing (multiple computers can be used to run one application); Cloud-computing vendor governance and regulatory compliance

Grid Networks, Services and Applications

GRID theory, frameworks, methodologies, architecture, ontology; GRID infrastructure and technologies; GRID middleware; GRID protocols and networking; GRID computing, utility computing, autonomic computing, metacomputing; Programmable GRID; Data GRID; Context ontology and management in GRIDs; Distributed decisions in GRID networks; GRID services and applications; Virtualization, modeling, and metadata in GRID; Resource management, scheduling, and scalability in GRID; GRID monitoring, control, and management; Traffic and load balancing in GRID; User profiles and priorities in GRID; Performance and security in GRID systems; Fault tolerance, resilience, survivability, robustness in GRID; QoS/SLA in GRID networks; GRID fora, standards, development, evolution; GRID case studies, validation testbeds, prototypes, and lessons learned

Computing in Virtualization-based environments

Principles of virtualization; Virtualization platforms; Thick and thin clients; Data centers and nano-centers; Open virtualization format; Orchestration of virtualization across data centers; Dynamic federation of compute capacity; Dynamic geo-balancing; Instant workload migration; Virtualization-aware storage; Virtualization-aware networking; Virtualization embedded-software-based smart mobile phones; Trusted platforms and embedded supervisors for security; Virtualization management operations /discovery, configuration, provisioning, performance, etc.; Energy optimization and saving for green datacenters; Virtualization supporting cloud computing; Applications as pre-packaged virtual machines; Licencing and support policies

Development of computing support

Computing platforms; Advanced scientific computing; Support for scientific problem-solving; Support for distributed decisions; Agent-assisted workflow support; Middleware computation support; High performance computing; Problem solving environments; Computational science and education; Neuronal networks

Computing applications in science

Advanced computing in civil engineering; Advanced computing in physics science; Advanced computing in chemistry science; Advanced computing in mathematics; Advanced computing in operation research; Advanced computing in economics; Advanced computing in electronics and electrical science; Advanced computing on Earth science, geosciences and meteorology

Complex computing in application domains

Computation genomic; Management of scientific data and knowledge; Advanced computing in bioinformatics and biophysics; Advanced computing in molecular systems and biological systems; Application of engineering methods to genetics; Medical computation and graphics; Advanced computing in simulation systems; Advanced computing for statistics and optimization; Advanced computing in mechanics and quantum mechanics; Advanced computing for geosciences and meteorology; Maps and geo-images building; Curve and surface reconstruction; Financial computing and forecasting; Advanced computing in robotics and manufacturing; Advanced computing in power systems; Environmental advanced computing



ADVCOMP Advisory Chairs
Chih-Cheng Hung, Southern Polytechnic State University, USA
Juha R�ning, Oulu University, Finland
Sigeru Omatu, Osaka Institute of Technology, Japan
Erich Schweighofer, University of Vienna, Austria
Paul Humphreys, University of Ulster, UK
Danny Krizanc, Wesleyan University, USA
Ivan Rodero, Rutgers University - Piscataway, USA
Ali Shawkat, CQ University of Australia - North Rockhampton, Australia
George Spanoudakis, City University London, UK
Vladimir Vlassov, KTH Royal Institute of Technology, Sweden
Jerry Trahan, Louisiana State University, USA
Dean Vucinic, Vrije Universiteit Brussel (VUB), Belgium
Rudolf Berrendorf, Bonn-Rhein-Sieg University, Germany
Wenbing Zhao, Cleveland State University, USA
Camelia Mu�oz-Caro, Universidad de Castilla-La Mancha, Spain
Laurent R�veill�re, Bordeaux Institute of Technology, France
Ewa Grabska, Jagiellonian University - Krakow, Poland

ADVCOMP Industry/Research Chairs
Jorge Ejarque Artigas, Barcelona Supercomputing Center (BSC-CNS), Spain
Helmut Reiser, Leibniz Supercomputing Centre (LRZ)-Garching, Germany
H. Metin Aktulga, Lawrence Berkeley National Lab, USA
Sameh Elnikety, Microsoft Research, USA
Umar Farooq, - Seattle, USA
Dmitry Fedosov, Forschungszentrum Juelich GmbH, Germany
Alice Koniges, Lawrence Berkeley Laboratory/NERSC, USA
Markus Kunde, German Aerospace Center & Helmholtz Association - Cologne, Germany
Peter M�ller, IBM Zurich Research Laboratory- R�schlikon, Switzerland
Simon Tsang, Applied Communication Sciences - Piscataway, USA
Anna Schwanengel, Siemens AG, Germany
Christoph Fuenfzig, Fraunhofer ITWM, Germany

ADVCOMP Publicity Chairs
Marie Lluberes, University of Puerto Rico at Mayag�ez, USA
Sascha Opletal, University of Stuttgart, Germany
�lvaro Navas, Universidad Politecnica de Madrid, Spain
Iwona Ryszka, Jagiellonian University - Krakow, Poland

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