Theme
The workshop exclusively focuses on the Smoothed Particle
Hydrodynamics (SPH) methodology and related simulation
approaches. The methodology has recently gained enhanced
attention by various researchers in the area of scientific
computing. The SPH method was initially developed to study
the development of galaxies in astrophysics. Yet, a number
of developments based on this approach have been launched by
various research teams in association with e.g.
environmental engineering, applied solid mechanics, marine
and coastal engineering, nuclear power engineering, medical
engineering and geotechnical applications, amongst others.
Applications involve problems from macro-scale to submicro
scale. Prominent examples refer to tsunami and landslide
simulations, cosmic structure formation and galaxy
collisions, liquid gas sloshing in LNG tankers, solid
fracturing due to high-velocity impact, wave energy
generation using floating bobber arrays, slamming loads on
offshore structures, flooding of ships sections, decay of
tip vortices behind aircrafts and human lung respiration
simulations, amongst others. Due to the huge computational
effort associated to SPH simulations, a significant branch
of SPH research is concerned with high-performance computing
on the most recent hardware technologies (e.g. massively
parallel CPU & GPU computing). Moreover, the methodology is
often applied to achieve ambitious virtual-reality
animations and to support the virtual training, e.g. of
medical students.
Characteristics of the Workshop
Starting from the first workshop in Rome 2006, which
involved approximately 30 presentations, the subsequent
workshops in Madrid 2007, Lausanne 2008, Nantes 2009,
Manchester 2010, Hamburg 2011, Prato 2012 , Trondheim 2013 ,
Paris 2014 and Parma 2015 continuously grew towards a three-
day event with approximately 90 participants, about 50-55
oral presentations, including 2 keynote lectures. Each
contribution is supplemented by an 8 page colour paper.
Proceedings are published with an ISBN.
Dedicated to the aim of stimulating an enhanced direct
exchange of ideas between the community of SPH researchers,
there will be no parallel session during the Workshop. All
abstracts of the offered contributions are screened by at
least three experts. Associated to the Workshop, an SPH
Training Day (13th June) is offered to researchers who are
familiar with the fundamentals of SPH but are beginning
their work in the field. The best student contribution to
the workshop is awarded (Libersky Prize).
Background Organisation
Following the impulse generated by a collection of national
initiatives, a need of fostering and clustering efforts and
developments has been identified around 2005. In conclusion,
the Special Interest Group (SIG) SPH European Research
Interest Community (SPHERIC) has been installed under the
aegis of the European Research Community for Flow Turbulence
and Combustion (ERCOFTAC). The goal of SPHERIC is indeed to
foster the spread of this simulation method within Europe (&
abroad). It forms a framework for closer cooperation between
research groups working on the subject and serves as a
platform for the information exchange from science to
industry. At present the network involves 62 members, among
them are 15 industrial partners. Additional information
about SPHERIC can be found on the SPHERIC website.
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