Hawal Rashid of Ansys

Ansys has developed a breakthrough technology, known as 3D Component Domain Decomposition Method (3D Comp DDM), that enables the accurate and efficient simulation of antenna arrays. Whether solving complex, electrically large antenna arrays, or relatively simple antenna arrays, this technology enables fast simulation without compromising on accuracy. 3D Comp DDM enhances the simulation process offering a robust and scalable solution for modeling realistic arrays while capturing finite array truncation effects.

In this presentation, a workflow for the analysis of 5G phased array antennas will be demonstrated.

Biography:

Speaker: Hawal Rashid, Principal Application Engineer, Ansys

Hawal Rashid received his M.Sc. in Engineering Physics, and, M.Sc. in Radio and Space Science, and his Ph.D. in Electrical Engineering from Chalmers University of Technology, Gothenburg, Sweden, in 2009, 2010, and 2016.  Hawal Rashid is a Principal Application Engineer for High Frequency at Ansys Where he mainly works with customer solutions involving 5G phased array antenna and RF design, modeling of antennas in electrically large environments, and multi-physics simulations. His research interests are in the phased array antenna for 5G applications. Further research interests are low-noise cryogenic and room temperature THz systems, THz receiver component design, characterization, and calibration.

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