| Login

Resource Library

Keyword
GO
Categories










Industries














67 Results
Filter by:
Product
Altair
Partner
Slide for More Clear All Apply
Solution

Product Type

  • All
  • Analysis and Optimization
  • Cloud and HPC
  • Enterprise & Analytics
  • Industrial Design
  • Modeling and Visualization
  • Product Design and Dev't

Discipline

  • 1d Systems
  • Additive Manufacturing
  • Advanced Mathematics & Analyics
  • Casting
  • CFD
  • Composites
  • Concept Design
  • Crash & Safety
  • Data Analytics
  • Design
  • Durability
  • EDA
  • Electromagnetics
  • Enterprise Solutions
  • Ergonomics
  • HPC
  • Hydraulics & Pneumatics
  • Industrial Design
  • Injection Molding
  • Internet of Things
  • Lightweighting
  • Manufacturing
  • Materials Library
  • Model-Based Development
  • Modeling and Simulation
  • Multi-Body Dynamics
  • Multiphysics
  • NVH
  • Optimization
  • Product Design
  • Project Management
  • Rendering
  • Staffing Solutions
  • Stress
  • Structures
  • Thermal
  • Vehicle Dynamics
Clear All Apply
Language
  • Chinese
  • English
  • French
  • German
  • Italian
  • Japanese
  • Korean
  • View All
Solve Coexistence and Interference Issues in Smart Devices Using Altair EM Solution
Wireless electronic devices these days often support both Bluetooth and Wi-Fi connectivity. The 2.4 GHz Wi-Fi frequency band is very close to the Bluetooth operating frequency. The co-existence of these two technologies within the same device lead to interference issues.

This webinar presents Altair’s EM solution to solve the coexistence and interference issues in smart devices.

Design Antennas for Smart Devices Using Altair EM Solution
In an interconnected world, most devices are currently wireless with several antennas. PCBs are densely packed with components, leaving a very limited space for antenna and the engineer needs to come up with a suitable design. The performance of the antenna is also influenced by the adjacent components on the PCB.

This webinar presents Altair’s advanced computational tools for designing antennas on PCBs for Bluetooth and Wi-Fi applications.

Design Implants Leveraging Additive Manufacturing
Advancements in 3D printing and optimizing parts for additive manufacturing is changing medical industry’s production approaches. Applications include dental implants, bone replacements, prosthetics, surgical instruments and many more. ​

This webinar presents Altair’s solution for designing parts for additive manufacturing for medical applications, reduce design and manufacturing cost, generate efficient designs and predict-fix manufacturing defect early.

航空・宇宙業界のためのアンテナ設計セミナー
アンテナ設計および設置アンテナ性能と、仮想フライト試験や仮想走行試験を含む無線カバレージ解析を組み合わせたAltair独自の電磁界解析ソリューションをご紹介します。その他、複雑なレドーム設計のための新たなソリューションや散乱およびレーダー反射断面積(RCS)計算のための強力な解析/設計機能についてもご紹介します。

電子機器設計に必須 ノイズ対策セミナー
電化製品の設計において、すべてのパーツを組み上げてから問題が発覚し、手戻りが発生してしまうと、納期やコストに大きく影響します。そのため、予めEMI評価、EMS評価を行っておくことが大変重要です。

本ウェビナーでは、ハーネスやコネクター、筐体の形状を考慮したEMI解析、ハーネスや基板の配置を考慮したEMS解析、これらの解析結果を設計に活用するためのEMCエンジニアと量産設計者の協調設計ソリューション、の3つをテーマにご紹介します。

Antenna Design and Optimization Using Machine Learning
Machine learning is a method of data analysis that automates analytical model building. As the antennas are becoming more and more complex each day, antenna designers can take advantage of machine learning to generate trained models for their physical antenna designs and perform fast and intelligent optimization on these trained models.

Using the trained models, different optimization algorithms and goals can be run quickly, in seconds, for comparison and for types of different studies, such as for example stochastic analysis for tolerance studies etc.

This short course presents the process of fast and intelligent optimization by adopting both the Design of Experiments (DOE) and machine learning using Altair FEKO. Examples to showcase the advantages of using machine learning for antenna design and optimization will be presented.

Electromagnetic Solutions for Accelerated Product Development of Aerospace and Defense Systems
In this webinar we showcase Altair’s unique electromagnetic simulation solutions combining antenna design and installed antenna performance with radio coverage analysis, including virtual flight and drive tests. We also cover fast modelling of radomes including FSS, speed up of platform model clean-up and meshing, new uses cases and technology for scattering and RCS, prediction of radio frequency interference, radio coverage and planning, spectrum management, additional related solutions on the Altair Partner Alliance and our software delivery models.

5Gインフラ評価のスタンダード WinProp電波伝搬セミナー
「第5世代移動通信システム(5G)」の基本的な解説に加え 、Altair WinPropによる5G電波伝搬モデルの作成と評価、基地局の設置やアンテナ配置の検討について解説します。

セミナーの内容
・5G電波伝搬の現象​
・5Gカバレージについて​
 - 伝搬損失
 - 遅延スプレッド・角度広がり
・5Gネットワークプランニング​
 - ビームフォーミング​
 - モンテカルロ分析

Nouveautés et solutions d’Altair pour l’électromagnétisme en RF en enseignement académique
Découvrez une nouvelle démarche pédagogique à travers un témoignage académique sur l'utilisation de FEKO pour l'enseignement des modules d'antennes RF.

Efficiently Simulating and Optimising Antenna Placement in Virtual Test Scenarios
In this practical workshop we will present both the theory and background of the numerical techniques used, as well as presenting application examples and real-world cases studies on how such a process is used in the industry today. It will be a combination of presentation and demonstration of the best insight in the process.

Due to increasing complexity and a higher demand for connectivity for all sorts of products, physical measurements are more and more enhanced by virtual testing, not only on component level but also for full platforms like vehicles, aircrafts, etc. in their environment. Simulation in the design stage is crucial for successful deployment.

This workshop demonstrates the development process, from antenna evaluation to placing the antenna concepts on a platform and performing the virtual test drive / flight analysis also using optimization to increase the performance of the system. The numerical methods applied for such types of analysis,like full wave solutions for the antenna design and placement, as well as different wave propagation models like empirical models or dominant path solutions will also be discussed in more detail.

Application examples from the automotive and aerospace domain will show time variant results for antenna systems on moving objects e.g. also for MIMO scenarios.

Solve Your EMC/EMI Problems Involving Cables
Many problems of electromagnetic compatibility and interference involve cables, which either radiate through imperfect shields and cause coupling into other cables, devices or antennas, or which receive (irradiation) external electromagnetic fields (radiated from antennas or leaked through other devices) and then cause disturbance voltages and currents potentially resulting in a malfunctioning system. Altair offers a comprehensive combined electromagnetic field and cable solution using the Multiconductor Transmission Line (MTL) method, as well as a hybrid solution combining MTL with Method of Moments (MoM+MTL), to solve the EMC/EMI problems involving cables. This webinar covers the cable analysis solution from Altair with a detailed overview of the methodology with examples.

Get One Step Ahead of 5G With Wireless Network Planning and Performance Analysis
5G is the next evolution of communication networks. With an exponential increase in consumer demands for high-speed data, the existing technologies can only sustain this demand for the next few years. We need a new technology with new capabilities, improved downloading and uploading speeds, and that can enable companies to control devices remotely in much more efficient and faster way than currently possible. This webinar presents Altair’s advanced computational tools for the propagation analysis and network planning of the emerging 5G technologies.

Optimize Your Antenna Design Through Machine Learning
Machine learning is a method of data analysis that automates analytical model building. As the antennas are becoming more and more complex each day, antenna designers can take advantage of machine learning to generate mathematical models for their physical antenna designs and perform fast and intelligent optimization on these mathematical models. This webinar presents a process of fast and intelligent optimization by adopting both the Design of Experiments (DOE) and machine learning.

Airbus Helicopters Relies on Simulation to Develop Antennas Quickly and Efficiently
Hervé Dutruc, antenna and communication expert at Airbus Helicopters, highlights some of the challenges the company faces for antenna design and installation definition. Airbus Helicopters relies on Altair Feko simulations to support the increased of use of composite materials and growing frequency for communication systems.

Improving Performance Using FEKO and HyperStudy at Northrop Grumman
Scott Burnside, Senior Antenna & RF Engineer at Northrop Grumman, explains how Altair Feko and HyperStudy can be combined to design and optimize antennas for land vehicles, helicopters, and aircrafts.

Altair FEKO and Winprop New Feature Overview
View a high level overview of the new features available within FEKO and Winprop for version 2019.


Aircraft Radome Multiphysics Using Simulation
Watch this webinar to see a demonstration of a multiphysics simulation approach using the Altair HyperWorks platform for the analysis of airborne radomes for electromagnetic , structural, aerodynamic, and bird strike performances.

What's New in Feko and WinProp 2019
New features and benefits of Altair Feko and WinProp in the 2019 release

Radio Coverage Planning for Heterogeneous Wireless Networks, Including 5G
This webinar will give an overview of WinProp's capabilities for the radio planning with real use cases showing the performance of WinProp in topographical, built-up, industrial, and indoor scenarios including live demonstrations at the end.

In-depth Optimisation with Altair Feko & HyperStudy
Altair Feko is a well-known and trusted numerical analysis tool for a wide range of problems in electromagnetics. Its efficient solvers make it a very good tool to utilize as part of a process that explores solution spaces or performs advanced optimisation tasks in electromagnetics.
Altair HyperStudy makes a strong complement to Altair Feko for exactly this purpose. This webinar will introduce attendees to HyperStudy and demonstrate how its features and workflows can help electromagnetics scientists and engineers explore solutions spaces with advanced design of experiments (DOE) strategies and perform advanced optimisations using hyperdimensional solution surfaces.


Generation of Antenna Array Excitation
See how Altair Compose can be used for the automatic generation of antenna array excitations. You can seamlessly perform the necessary calculations, data formatting and output for use with Altair Feko.

Wireless Network Design for Railway Scenarios, Including Tunnels and Metro Stations
Key challenges for train/metro operators are increasing traffic volumes, ensuring passengers safety and security during their journey, as well as providing real time multimedia information and access to social networks in stations and tunnels. To meet these requirements various broadband telecommunication networks based on WiFi, GSM-R, LTE need to be put in place.

This webinar will show how WinProp is used for the wireless network design and deployment in various railway scenarios including tunnels and metro stations, inside train wagons, as well as along railway tracks. Both antennas and leaky feeder cables can be deployed in the 3D environment of the station/tunnel scenario including the train.

Battery Thermal Management - 13 March 2019
Given EVs are gaining momentum and the recent Govt. of India’s strict localization norms in EVs to avail incentives, Altair announces a 3-part webinar series to introduce its powerful and most comprehensive industry solution set for E-mobility from concept till end use. Open to startups, OEM and supplier alike, we invite you to join our 3-part live webinar series.

We will discuss the various challenges in EV systems and how Altair solutions play an important role in the design & development stage. Namely, how you can cut down development time and cost while improving your designs, how you can rapidly prototype your ideas, tame the complexities involved in a highly complex system and lots more. We will highlight some unique challenges for EVs specific to India and discuss how to address them.

  •  
Virtual Drive Tests for ADAS Radar Sensors and Communication Antennas
This webinar shows how Altair WinProp considers the full environment including buildings, cars, street objects in order to get accurate representations of the radio waves impinging on the installed car antennas and the multipath radar channels including reflections, diffractions and scattered contributions. For the efficient analysis the car objects can be also replaced by their corresponding radar cross sections (pre-calculated in Altair Feko). Thus allowing the realistic and fully reproducible evaluations of different options for the antennas and sensors including their integration and configuration.

Soluciones para la simulación electromagnética con Altair HyperWorks
Altair Feko™ es una herramienta de simulación electromagnética integral para el análisis del campo electromagnético de estructuras 3D. Ofrece múltiples numéricos de vanguardia para la solución de las ecuaciones de Maxwell, facilitando a los usuarios la resolución de una amplia gama de problemas electromagnéticos en distintas industrias. Por su parte, WinProp es la herramienta más completa para el estudio de los diferentes modelos de propagación radio, ya que combina precisión con tiempos de cálculo cortos.

First-Time-Right Design of Matching Circuits for Complex Antenna and RF Applications
In the webinar, the sources of the discrepancy between measurements and simulation will be identified. We will demonstrate a first-time-right design flow of matching circuit using the FEKO electromagnetic solver and the Optenni Lab RF Design Automation Platform. The most critical design areas are the accurate representation of the matching circuit layout, using realistic component models, correct calibration and reference plane in measurements and taking the radiation efficiency and multiantenna radiation patterns into account.

Altair FEKO for Marine EMC Applications
Altair FEKO is a leading comprehensive electromagnetic analysis software package, which is widely used in many industries and built on state of the art computational electromagnetic techniques to provide users with solutions to a wide range of electromagnetic problems. FEKO has been applied extensively in both commercial marine and naval applications to solve a wide range of EMC problems including antenna coupling and co-site interference analysis, cable coupling and radiation analysis and radiation hazard (RADHAZ) zone analysis.

より広範囲で正確な電磁波障害対策のための 高周波電磁界解析事例のウェブセミナー
数解法とその連成を特徴に持つ高周波電磁波解析ソフトウェアFEKO の EMC(エミッション・イミュニティ)解析事例をご紹介します。

FEKO Webinar: Design of a Two Port Dual-Polarized Trefoil Torus Knot Antenna using Characteristic Mode Analysis
r S Vinoth Kumar from Indian Institute of Technology Kanpur received an honorable mention in the 2017 Competition for his entry.

Knots find interesting applications in various field of electromagnetics. In Mr Kumar’s work a dual-polarized knot antenna is designed and optimized completely using features of FEKO. The proposed structure is fabricated and its performances are compared with the simulation results obtained from FEKO.

FEKO Webinar: Wideband MIMO Handset Antennas Based on Theory of Characteristic Modes
Ms Ke Li from Xidian University, China received the prestigious title of winner in the 2017 competition.

This winning entry covers a dual multiple-input, multiple-output (MIMO) antenna design for a smart phone operating in the LTE 13, GSM850 and GSM900 bands.

Serie MBD : Webinar MBD-cas d'application radar
Notre expert vous présentera un exemple d’application de la méthodologie Altair basée sur Activate qui simplifie la gestion de l’évolution des modèles de simulation au fur et à mesure de l’avancement du développement des systèmes en exploitant de façon cohérente la mise à disposition progressive des modèles HyperWorks MotionSolve en particulier mais aussi Flux, OptiStruct, AcuSolve et Feko sous différentes formes.

高周波電磁界解析ソリューション- FEKO
AltairのFEKOは、高周波界磁場問題を解くのに最適な解析ソリューションです。自動車産業をはじめ、航空宇宙、エレクトロニクス、医療など様々な分野で使われています。

FEKOの製品概要はこちら▼
http://www.altairhyperworks.jp/product/FEKO

Webinar: Introduction to Optenni Lab
This webinar is an introduction to Optenni Lab, a software tool for the synthesis and optimization of matching circuits for antennas, radio-frequency (RF) amplifiers and other wireless and high frequency electronics applications.

Altair Aerospace: Design and Optimization of a Radome
This 25-minute webinar covers the material characterization and optimization of a radar dome (radome) build out of carbon and fiberglass. Also to be discussed is the design and optimization of a radar antenna and the simulation of a radar integrated behind the radome and wing structure.

Evolution and Usage of EM Simulation in the Naval Industry
Altair Feko’s broad solver technology offering is well suited to the efficient and accurate simulation of electrically very large structures.

In this webinar we will offer several use cases of Naval related electromagnetic simulations using Feko.

Besides more general problems like antenna placement, RCS or radiation hazard, we will also discuss special topics like ship magnetization and low frequency shielding of submarine hulls.

ヘルプの日本語化 *音声解説付
HyperWorksのヘルプを日本語にする方法をご紹介します。HyperWorksには英語のヘルプしかない、、、と思っているユーザーさんも多いですが、実は日本語ヘルプもちゃんとあります。

  •  
HyperWorks for Aerospace Series: Electromagnetics
This webinar will give an overview and update on the EM simulation solutions (FEKO, Flux and WinProp) in HyperWorks for the aerospace industry and its segments covering applications and real use cases from antenna design and placement, EMC, RCS and wave propagation to electric machines, actuators and sensors and high power equipment.

FEKO Webinar Recording: Square Kilometre Array (SKA) Analysis Using HyperWorks
In this webinar presented by the University of Stellenbosch in South Africa, we will look into some of the key analysis aspects that are currently being undertaken for the Square Kilometre Array (SKA) Phase 1 project using HyperWorks.

Présentation en ligne - Des équipements de défense innovants et performants grâce à la simulation numérique
Nos spécialistes vous présenterons en 45 minutes comment les technologies et expertises d’Altair peuvent vous aider à répondre aux défis d’améliorer les performances, la fiabilité et la mobilité des équipements de défense. Les technologies présentées seront illustrées par des exemples d’application.

  •  
FEKO Webinar Recording: FEKO 14.0 Automation & Scripting
FEKO 14.0 will be released with a myriad of new automation features. Extensive support for automation in CADFEKO has been added. In addition, control over custom dialogs has been improved. An introductory overview of automation will be presented, along with examples of how automation can be used to improve efficiency when working with FEKO.

FEKO Webinar: Preview of FEKO 14.0 under HyperWorks
The release of FEKO 14.0 will be the first version of FEKO released under altair HyperWorks since the acquisition of EM Software & Systems S.A. by Altair Engineering last year.

In addition to discussing some changes to this HyperWorks integration (such as licensing), the webinar will introduce new extensions to the FEKO solver and user interface.

Choosing the Right Solver in FEKO
One of the key features in FEKO is that it includes a broad set of unique and hybridized solvers, giving the possibility to combine methods to solve complex and electrically large problems, with all solvers included in the same package.

Presented by Jordi Soler, Director of Business Development, Electromagnetics, this webinar provides an overview and guide on how to choose the most appropriate method in FEKO.

FEKO Webinar Recording: Radar Cross Section & Antenna Design
Due to the size and complexity of a Navy ship at sea, proper calculation of radar cross section and of antenna coverage has long been elusive.

This webinar will show how, with hybrid numerical methods available today, this has become possible.

The practical pros and cons of various methods will be introduced, after which results for a broad frequency range will be shown, up to many GHz for a realistic large Navy frigate.

FEKO Webinar Recording: EM Design in the Electronics Industry
This webinar covers FEKO’s role in the design and optimization cycle’s typical to the electronics industry. These include early stage antenna selection, automated optimization, tolerance analysis and what-if trade-off investigations. Antenna integration, matching and performance for various conditions are also discussed.

FEKO Webinar Recording: The CMA Advantage
In this webinar we cover some of the theory of CMA, as well as present several new case studies highlighting the CMA design advantage. These include optimum feeding and placement of antennas on platforms and decoupling of antenna elements in a MIMO configuration.

FEKO Webinar Recording : Radomes with Frequency Selective Surfaces
In this webinar we present a complete solution for the design and analysis of radomes. We also discuss in detail the challenges and the solutions to the design and analysis of Frequency Selective Surface (FSS) radomes.

Feko - Electromagnetic Simulation in HyperWorks
This webinar shows an overview of FEKO’s capabilities with highlights on the new features included in the FEKO Suite 7.0 release and their application to the solution of practical electromagnetic problems.

FEKO : Helping to Understand the Universe
The Square Kilometre Array (SKA) : Cutting edge technology, design and innovation

  •  
Time Domain Responses from Frequency Domain Results
Frequency domain results can be transformed to obtain time domain responses. This webinar will cover the signal setup in POSTFEKO and how it relates to the frequency domain specification in CADFEKO.

FEKO最新版紹介ウェビナー - HyperWorks14.0
FEKO 14.0では、モーメント法(MoM)およびマルチレベル高速多重極法(MLFMM)で曲線状のワイヤセグメントメッシュをサポートします。

*2016年3月14日に開催されたウェビナー「Altair製品 最新版 ウェブ発表会 2016 FEKO編」で使用した資料およびその録画です。


FEKO Student Competition Winner 2015 Webinar: Design of Platform-mounted HF Antennas with Enhanced Bandwidth using CMA
For the first time, the winning entry for the 2015 FEKO Student Competition is presented in a webinar format.
Professor Nader Behdad from the University of Wisconsin-Madison will present his winning student, Ting-Yen Shih's entry.

FEKO Webinar Recording : Designing with Characteristic Mode Analysis (CMA)
Characteristic Mode Analysis (CMA) gives insight into the fundamental resonant behaviour of a structure. This helps engineers to follow a systematic design approach, making use of the parameters calculated with CMA.

This webinar covers the latest in FEKO's CMA solver. The webinar starts with a discussion about typical workflows for CMA simulations, giving a better understanding of when and how CMA is best used. Then some recent CMA applications are reviewed and concluding with some exciting new CMA features.

FEKO Webinar Recording: Accelerate Complex Platform Modelling and Simulation with HyperMesh and FEKO
FEKO is the most used and recognized electromagnetic simulation software for antenna placement, EMC and RCS of platforms, including aircraft, vehicles, ships, satellites and missiles. The clean up of the model can be tedious, depending on the quality of the CAD data.

In this webinar we demonstrate the workflow of an aircraft EMC use-case focusing on High Intensity Radiated Fields (HIRF). The advantages of using HyperMesh to clean up a model will also be highlighted. FEKO will be used to set up the simulation and show the desired results.


FEKO Webinar: Taking Radar Cross Section (RCS) to the Next Level
Based on practical examples, this webinar will offer a guided tour through computational methods to determine Radar Cross Section (RCS), from objects of just a few wavelengths, to objects of thousands of wavelengths in size.

FEKO Webinar: EMC Simulation of Automotive, Aerospace & Other Applications with FEKO
This webinar recording provides an overview of features, applications and real use-cases where FEKO is used for EMC simulation, including emissions, immunity, lightning effects, High Intensity Radiated Fields (HIRF), Electromagnetic Pulses (EMP), shielding effectiveness and radiation hazard

FEKO Webinar: The Use of Model Decomposition and Equivalent Sources for Faster Simulation
System level simulation often involves multiscale type problems, where the structure might be electrically large while also containing details which are significant to the RF performance. These types of simulations can typically require large computational resources. Model decomposition enables these problems to be solved in two steps by using an equivalent (simulated or measured) representation of the transmitting or receiving antennas. Significant reductions in computational requirements can be achieved with this approach.

FEKO Webinar: Automotive Radar Design & Integration at 76 - 77 GHz
This webinar covers several techniques and approaches which highlight how FEKO can be applied for efficient and accurate simulation of the radar antenna design as well as the integration aspects, including radome and bumper effects.

Feature Extension and Automation in Altair Feko through Scripting
The powerful scripting capabilities in Feko provides users with the means to extend the features available in the interface. Tasks and calculations that need to be performed repeatedly can also be automated allowing users to save time.

In this webinar the scripting language (Lua) and the available scripting capabilities in Feko will be briefly introduced.

FEKO Webinar: Wave Propagation and Radio Network Planning Simulation with WinProp
The rapid growth of mobile and wireless communications has significantly increased the need for propagation modelling and network planning simulation.

This webinar will introduce how WinProp fits into the electromagnetic simulation offering of HyperWorks, including the future plans in connection with FEKO.



FEKO Student Competition Winner 2016 Webinar: Embedded Element Pattern Beam Model for Murchison Widefield Array
Daniel Ung's entry was selected as the winner of the 2016 FEKO Student Competition.

A precursor to the Square Kilometre Array (SKA), the Murchison Widefield Array (MWA) radio telescope was constructed in the Murchison Radio-Astronomy Observatory in Western Australia.

In this one-hour webinar Daniel presented his report detailing how he made use of FEKO.



FEKO Webinar: Design Optimization with FEKO & HyperStudy
Solving complex design problems with an approach based on intuition can be challenging, especially when multiple design parameters interact with one another and several design goals are targeted. Join us for this webinar in which we will present a brief summary of different optimization methods, together with workflow demonstrations to set up a design.



FEKO Webinar: Efficient Antenna Array Modelling
FEKO contains various techniques for the efficient modeling of antenna arrays during the design process. The application and advantages of techniques such as periodic boundary conditions (PBC), the domain Green's function method (DGFM) and equivalent sources for efficient array modeling are demonstrated in this webinar.


Overcoming Challenges in 5G Antenna Design, Radio Coverage & Channel Analysis with FEKO & WinProp
This webinar will show how FEKO and WinProp can be used for the 5G antenna design, analysis of radio coverage and channel statistics including the antenna effect. This allows the requirements to be derived for the 5G antennas, as well as strategies for the 5G network deployment, including the 3.5 GHz frequency bands for area-wide high data rate services and the 26-28 GHz bands for capacity hotspots.

Key Benefits of Combining Measurements with Simulations for Antenna & EMC Applications
Altair has been working with Microwave Vision Group (MVG) for many years on the combination of measurements done with MVG antenna measuring systems with FEKO simulations. This webinar will explain how such a combination represents an alternative solution for antenna manufacturers to share data with device and platform manufacturers without exposing their IP.

The Growing Role of EM Simulation for Connected Vehicles and e-Mobility
This webinar will show how FEKO and WinProp are used to solve design and validation challenges related to:

(a) Connected vehicles, including antenna integration aspects. The use of virtual drive tests to reduce the costs and time of extensive road tests being done to study and analyze new connected vehicle functions, and

(b) Wireless power transfer systems and electromagnetic compatibility aspects which are key on electric and hybrid vehicles

Electromagnetic Simulation Growth in the Product Development Cycle
Product development is becoming more challenging due to stricter regulations, and reduced development times and budgets for prototyping and testing. The necessity to add more electronics into new products is making their design more challenging and sensitive to electromagnetic phenomena and effects.

This 40 minute webinar will show how different EM software tools are used in different processes and workflows to tackle these product design challenges.

HTT - Mobilizing Humanity in a New Way
Rob Miller, Chief Marketing Officer, discusses how Hyperloop Transportation Technologies and its partners are building a transportation system that moves people and goods at unprecedented speeds safely, efficiently, and sustainably. Through the use of unique, patented technology and an advanced business model of lean collaboration, open innovation and integrated partnership, HyperloopTT is creating and licensing technologies.

Founded in 2013, HyperloopTT is a global team comprised of more than 800 engineers, creatives and technologists in 52 multidisciplinary teams, with 40 corporate and university partners. Headquartered in Los Angeles, CA, HyperloopTT has offices in Abu Dhabi and Dubai, UAE; Bratislava, Slovakia; Toulouse, France; São Paulo, Brazil; and Barcelona, Spain. HyperloopTT has built a full-scale prototype in Toulouse, France and has signed agreements in the United States, UAE, France, India, China, Korea, Indonesia, Slovakia, Czech Republic, and Ukraine.

RSS icon Subscribe to RSS Feed

Be The First To Know

Subscribe