newFASANT is a powerful electromagnetic simulation software
tool based in the most advanced state-of-the-art techniques. It can be used
to perform and solve a wide range of electromagnetical problems on science
fields such as RCS analysis, urban scenarios radiopropagation,
circuit analysis and more.
We are constantly providing updates to our software suite in order to add
more features to our user interface or to our kernels. In newFASANT, we're
always looking to make our products easier to use and we focus on the usability
of our software.
newFASANT is a software suite composed of multiple products. All of our products are integrated into our unified and common user interface.
These are the different products that are developed and maintained by us and available for release to our users and customers or as a customized solution.
On board antennas 3D analysis and coverage parameters for radiocommunications systems.
3D analysis of complex and on board antennas, electromagnetic compatibility and RCS.
Radar Cross Section analysis of ellectricaly large and complex targets using Physcial Optics.
Complex targets radar image generation using Inverse Synthetic Aperture Radar (ISAR) techniques.
3D Analysis of the radar cross section (RCS) in rectangular, spherical or arbitrary Chaff Dipole clouds.
Parallelized 3D Radar Cross Section (RCS) analysis using the Method of Moments technique.
Analysis and design of reflection and transmission coefficients in periodical structures and metamaterials.
Thermal and infrared analysis and radiation parameter calculations in terrestrial and maritimal simulations.
V2V communication and autonomous driving systems & RCS analysis of complex bodies and large urban environments.
newFASANT offers many design tools to enhance the productivity and performance of the simulation when our customers use our products.
These design tools address specific problems which pose a bottleneck for the user when using general-purpose solvers due to the complexity of the design.
Doppler frequency shift analysis in electrically large and complex bodies for MOM/PO simulations.
Analysis and design of planar and microstrip circuits, waveguide circuits and wire antennas arrays.
High precision design and analysis tool for single layer and multilayer radomes.
High precission design and analysis tool for reflectarray antenna systems using MOM.
Analysis and design of smoothly and gently deformed flat metallic surfaces.
Design, characterize, and optimize MIMO antenna systems simulations in GTD projects.