CST MPHYSICS STUDIO® (CST MPS) is seamlessly integrated into CST STUDIO SUITE®, enhancing the EM simulation tools by adding the ability to calculate thermal and mechanical stress effects. This easy-to-use tool allows a multiphysics approach for the complete simulation of devices.
SPEAG's latest release of SEMCAD X introduces a new solver based on the Mode Matching Technique for the accurate and fast simulation of passive waveguide structures. The new solver has been integrated into the existing SEMCAD X framework to solve complex EM challenges in microwave industry. Together with the EM and Thermal solvers, SEMCAD X Microwave can be successfully applied to a wide variety of electromagnetic problems ranging from microwave devices, EMC, optics, to bio-medical applications.
The X-MWsystem from X-Microwave is a complete modular building block eco-system including a broad offering of RF and microwave components, an innovative Prototype Station and a FREE online System Simulator. The X-MWsystem can be used to seamlessly navigate thru the product development process from simulation to prototype to production hardware.
Wind turbines located near a radar installation can significantly interfere with the ability of the radar to operate properly. Remcom provides radar scattering expertise for government-funded research efforts into the impact that wind turbines and wind farms have on radar returns for Air Traffic Control (ATC) radar, early warning radar, weather radar, and instrumentation radar.
Altair now offers HyperWorks® 14.0, the latest release of their open architecture CAE simulation platform. The platform includes several new products, feature enhancements, and updated functionalities for use in designing and optimizing high-performance, weight-efficient, and innovative products.This is the first release of FEKO within HyperWorks, with HyperWorks version numbering being adopted.
Naval vessels and military aircraft, as well as other military systems, are at risk from weaponry that makes use of radar or infrared targeting systems. To reduce the risk of these threats it is desirable to minimize the radar cross section (RCS) and infrared (IR) signatures to make the platform less visible and therefore to increase the platform’s survivability and its ability to successfully perform its mission.