**WSCG 2024 – Workshops **

**Workshop 01: Meshless Methods in Computer
Science, Physical Sciences and Engineering**

Organizer: Prof. Vaclav Skala, http://www.VaclavSkala.eu,

c/o University of West Bohemia, Plzen [Pilsen], Czech Republic

E-mail: Paper submission via submission
server with a copy send to:

WSCGconf@gmail.com subject: "WSCG 2024-Meshless 2024"

Standard computational methods across many application fields require tessellation in 2D or 3D use triangular or tetrahedral meshes. Tessellation itself is computationally expensive especially in higher dimensions and result of computation is again discrete and physical phenomena are not smoothly interpolated. Meshless methods are scalable to higher dimensions and offer smooth final representation. Meshless methods lead to a solution of system of linear equations, in general. The applicability of meshless methods can be found in several areas.

The workshop is intended to exploration of theoretical foundations and applicability of meshless methods.

**Main topics** (but not limited to):

- Meshless methods in computer
graphics, vizualization and computer vision
- Meshless methods in engineering
problems including ordinary and partial differential equations
- Meshless methods - theory and
practice
- Meshless interpolation and
approximation of large data sets
- Radial Basis Functions (RBF) in
computer graphics, visualization, image processing and computer vision
- Meshless methods and projective
space
- and other related topics

**Workshop 02: Geometric Algebra Methods in
Computer Science, Physical Sciences and Engineering**

Organizer: Prof. Vaclav Skala, http://www.VaclavSkala.eu,

c/o University of West Bohemia, Plzen [Pilsen], Czech Republic.

E-mail: Paper submission via submission
server with a copy send to:

WSCGconf@gmail.com subject: "WSCG 2024-Geometric Algebra 2024"

Standard computational methods across many
applications use “traditional” (Gibbs) linear algebra. This workshop is
targeted specifically to application and theory of non-Euclidean geometry to
computation and especially within the framework of Computer Graphics and
Vision, Visualization and Scientific Computing, covering also new approaches to
linear algebra and numerical computation in general.

Methods based on projective space using geometry algebra and conformal geometry
seem to be very promising especially in the context of possible applications in
technical fields, chemistry, biosciences etc.

The workshop is intended to explore applicability of geometry algebra, projective geometric algebra and conformal geometric algebra and theoretical foundations.

**Main topics** (but not limited to):

- Geometric algebra (GA) theory
- Projective geometric algebra
(PGA)
- Conformal geometric algebra
(CGA)
- GA, PGA, CPG in computer
graphics
- GA, PGA, CPG in computer vision
- GA, PGA, CPG in visualization
- GA, PGA, CPG in electrical
engineering
- GA, PGA, CPG in mechanical
engineering
- GA, PGA, CPG in robotics
- and other related topics