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5G High Tech Webinar Series

This dynamic webinar series showcases the past, present and future of mobile networking, and how the convergence of 5G, edge computing and artificial intelligence machine learning will change the industry landscape. Additionally, it illustrates the 3D Component Domain Decomposition Method workflow for the analysis of phased array antennas and also demonstrates handheld antennas.


On Demand Webinars

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Ensure 5G Systems Integrity by Using Multiphysics Analysis of Chips, Packages and Systems Speaker: Wade Smith

The evolution of 5G systems is rooted in the consistently increasing need for more data. Whether the application is future medical systems, autonomous vehicles, smart cities, AR/VR, IoT, or standard mobile communications systems, all require an ever-increasing amount of data. For 5G systems to reliably work, the physical data pathways must be well understood and reliably designed. Whether the pathway is in the chip or the wireless channel, large amounts of data must seamlessly flow unimpeded. This presentation will discuss the various data paths in 5G systems and how Multiphysics analysis can help design these paths to allow for maximum data integrity.

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Systematic Cybersecurity Threat Analysis and Risk Assessment Speaker: Mario Winkler

The digital revolution has produced vehicles with unprecedented connectivity, which makes them vulnerable to cyberattack. Ansys medini for Cybersecurity helps secure in-vehicle systems and substantially improves time to market for critical security-related functions. It addresses the increasing market needs for systematic analysis and assessment of security threats to cyber-physical systems, starting early in the system design phase.

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Modeling and Simulation of 5G Antenna System Innovations Speaker: Hawal Rashid

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.

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5G Design Innovation Through Simulation Speaker: Shawn Carpenter

This presentation showcases the past, present and future of mobile networking, and how the convergence of 5G, edge computing and artificial intelligence machine learning will change the industry landscape. Modeling and simulation will drive this revolution—particularly in combining the physics of electromagnetics, optical, thermal, mechanical, and materials. Additionally, digital twins for modeling wireless devices within virtualized, realistic, city-sized environments will reduce the need for costly prototypes and exploratory testing in physical installations.

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