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A 60 GHz antenna array design is simulated in XF to demonstrate suitability for use on wireless Virtual Reality headsets. The final design is simulated mounted on a section of a virtual reality visor.
This whitepaper shows how XFdtd's time-domain approach enables rapid development of automotive radar sensors. Visit https://t.co/gwtNlqpxbT to read the full whitepaper.
Through continuous research and development, we have remained a leader in modeling and simulation technology for #5G and advanced wireless communications. https://t.co/PbDbl8wG6r
This webinar demonstrates XFdtd's Electrostatic Solver for touchscreen design. Visit https://t.co/7QJneVHTtT to watch this webinar at anytime!
A double slot choked antenna developed for hepatic microwave ablation (tumor treatment) is simulated in XFdtd to determine antenna performance and the effectiveness of the device for treating deep-sea
Wireless InSite predicts the coverage and interference and accounts for the multipath in complex environments such as heavy-industrial factories, warehouses, server farms and more. Visit https://t.co/
Penn State University is located in State College, Pennsylvania, a suburban city that contains several LTE sites. The Wireless InSite simulation in this new video shows the coverage prediction from it
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Visit our YouTube channel to find webinars, tutorials, and more! Be sure to subscribe and be the first to be notified of new videos. https://t.co/0l6iZwmj9u https://t.co/ty1EzyKiMO
In this new video, a passenger train located in a station is connected to an access point (AP) mounted on the roof of the station. RF propagation paths computed using the shooting-and-bouncing ray tec
Our Wireless InSite software for wireless propagation applications provides accurate predictions of signal propagation in urban, indoor, and mixed path environments. See application examples, publicat
In case you missed it, we have a new video tutorial available! In this tutorial, we offer a step-by-step guide to perform an indoor propagation analysis in an enterprise environment using Wireless InS
This example demonstrates simulation results for beams and possible plots of coverage from the full array and combinations of sub-arrays. #5G https://t.co/vLlj9Kwr3A
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@Habeebakhan11 @Habeebakhan11 The design uses common dimensions but was not created for any specific purpose. It is for demonstration only.
In this new video tutorial, we offer a step-by-step guide to perform an indoor propagation analysis in an enterprise environment. https://t.co/GsGfNXhDLk
In this example learn how to design and analyze a 28 GHz array capable of forming multiple beams for #5G base stations. https://t.co/qLh4I6CwWg
This example uses XFdtd EM Simulation Software to analyze the performance and interaction of two antenna systems operating at 4G (860 MHz) and #5G (28 GHz) in close proximity in a smartphone design. V
This example focuses on displaying typical simulation results for beams and possible plots of coverage from the full array and combinations of sub-arrays. https://t.co/vLlj9Kwr3A
In this example, various designs of a dual-band antenna constructed from textile fabrics for use in a wearable application are evaluated using XFdtd. When combined in a MIMO array, the antennas show g
This example uses XFdtd to simulate the performance of a low cost, chipless RFID system in order to validate its performance for use in situations where high volume usage requires very low-cost compon