AVL’s Kurt Reininger and Bernhard Groechenig explain how to improve production testing processes and turn testbed data into valuable insights that enhance product and process quality.
Felix Bayer presents AVL’s high-performance, scalable, heavy-duty e-axle technology, highlighting critical milestones from selecting the optimal architecture to refining it for series production.
AVL’s Tom Horvat explains how to overcome the numerous challenges of developing eco-friendly battery solutions.
AVL’s Matthieu Clauet explains how to use AI to address the challenges posed by the demanding requirements of modern electric motor design and testing.
AVL’s Iskra Gasparic and Marko Mesaric discuss best practices and tools that enhance efficiency while ensuring the reliability of ADAS features.
AVL’s Anne-Marie Schuppan presents solutions for a MegaWatt charging setup with regard to standardization, energy flow, and efficiency.
AVL’s Martin Rothbart explains how to implement appropriate methods and processes to define and control product CO₂ targets during development.
AVL’s Bernhard Brunnsteiner and Rolf Döbereiner discuss commercial vehicle battery requirements and explain how to integrate a battery system into the chassis of a European low-floor city bus.
René Steinek and Dr. Rolf Doebereiner present AVL’s innovative fuel cell truck solution.
AVL’s Gianluca Vitale and Harald Petschnik discuss the complexities of accelerating software deployment for the software-defined vehicle.
AVL’s Dr. Gerald Sammer explains how to optimize battery testing with a comprehensive methodology supported by a software solution open to any test equipment vendor.
Robert Kurzmann explains how engineers can use the AVL-DRIVE™ VIORE objective assessment tool throughout the calibration process to meet customer expectations.
AVL and Tributech experts explain how to support the integration, tracking, analysis, and reporting of relevant battery data during the battery lifecycle.
AVL’s Saša Bukovnik and Christoph Schweiger explain how to use a multi-body dynamics software solution to simulate any powertrain type in transient operating conditions.
Sebastian Schewell and Maximilian Bier of AVL explain how to use optimized test systems to overcome the most significant e-axle and powertrain challenges and shorten development time.
AVL and Strategy Engineers webinar series, LEM’s Quentin Piat will share his experience from a customer point of view about used CO2 assessment methodologies used for scopes 1 to 3.
AVL experts explain how OEMs, battery and cell suppliers can improve the efficiency of their battery cell testing using a scalable solution that covers testing from a single test station to running an entire test lab.
AVL’s Robert Fridman discusses the most effective approaches to simulating transmission oil distribution and oil circulation losses.
Experts from RedHat, Microsoft and AVL discuss the challenges, methods, and solutions to enable a smooth DevOps Cycle.
AVL experts discuss various aspects of simulation software development and engineering for fuel cell systems, highlighting the mutual benefits of the two disciplines under one roof.
Microsoft’s Daniel Lüddecke joins Kieran McAleer and Harald Petschnik of AVL to explore how and why software development for the software-defined vehicle (SDV) requires a new approach.
Experts from AVL and Strategy Engineers explain how companies can practically measure their CO2 footprint, which governance structures are proven, and how a structured funnel process can optimize product development.
Experts from ZF, Microsoft, and AVL discuss solutions to enable a smooth transition to a continuous software deployment while ensuring software quality and security requirements.
AVL’s Rittmar von Helmolt and Martin Rothbart discuss possible energy distribution and storage methods and their short- and medium-term feasibility.
AVL’s Gerhard Schagerl and Alwin Tuschkan explain how to use electric vehicle battery data analytics to support design decisions, optimize operation, and predict issues in the field.
AVL experts explain how to use machine learning to intelligently monitor the health of the unit under test and the overall system.
AVL’s Nikolaus Keuth and Robert Binder explain how engineers can streamline their development tasks using Concerto 5 R7 data processing software.
AVL’s Stefan Scheidel and Helmut Grassberger discuss how to implement suitable methodology and tools to help engineers find the optimal parameters in a multidimensional design space.
Experts from AVL provide a holistic view of requirements on test facilties for hydrogen ICEs. The experts will also identify solutions to the numerous test bed transformation challenges.
AVL’s Tomas Dehne explains how to use testing tools and solutions specifically for balance-of-plant (BoP) fuel cell applications.
AVL’s Martin Rothbart and Rittmar von Helmolt explain how to overcome the shortcomings of existing approaches for future energy systems.
AVL experts discuss an easy-to-use solution that supports you throughout the development process with assistants such as the engine model generator, parameterization wizards, and various automated workflows.
AVL’s Lucas Kira and Matthias Pichler explain the importance of these external influences and the cross-effects created between the different vehicle areas, from chassis to powertrain and thermal systems.
AVL’s Marijn Hollander and Morgan LeCossec explain the benefits of advanced methodologies for E-Drive powertrain development using AVL CAMEO.
Experts from AVL discuss the layout of hydrogen engines in passenger car and commercial applications, focusing on hybrid solutions for high-efficiency passenger car powertrains.
AVL experts explain how to verify and validate software and hardware functions by integrating the DevOps process with the V-model.
Tanner Bruhn and Laurent Allouchery demonstrate how to monitor fuel cell degradation in real-time using AVL’s toolchain.
AVL’s Stefan Pfragner and Christian Juwan present findings from their BMW iX benchmark study, which links technology to the vehicle’s strengths and highlights the end-consumer benefits.
AVL experts explain how to use vSUITE™ to optimize the energy management of a battery electric SUV and achieve the ideal balance between range and performance in a virtual environment.
Experts from AVL discuss existing battery validation challenges and explain how intelligent automation can make the testing process much more efficient.
AVL’s Manfred Kogler and Lukas Leonhartsberger present the results of a comprehensive Toyota Yaris benchmark study, which covered the ICE, component design, vehicle characteristics and performance.
Meet AVL’s experts in this extraordinary virtual launch event and follow the discussion about the use of the vSUITE in complete vehicle development.
AVL’s Vittal Bandi and Kieran McAleer explain how to virtualize more of the vehicle development process, from integrating models and virtual ECUs to executing defined test cases across all environments.
Experts from AVL explain how to use a computational fluid dynamics (CFD) solution to ensure consistent and reliable results and expedite the automotive aerodynamics design process.
Experts from AVL explain how to overcome the most significant e-Axle, powertrain, and vehicle testing challenges and shorten development time.
AVL’s Nikolaus Keuth and Gerhard Schagerl present a data-driven methodology and related big data toolchain to create better insights and make the vehicle development process more efficient.
AVL’s Dr Reinhard Tatschl and Dr Christoph Pötsch present a multi-physical system simulation solution that offers detailed insight into a PEM fuel cell.
AVL’s Armin Engstle and Diego Turrado Blanco discuss the importance of systematic parameter variation for improving sensor perception during adverse weather conditions.
AVL’s Gerhard Schagerl and Milan Zivadinovic explain how the application of cutting-edge data science methodologies benefits OEMs and their suppliers by predicting vehicle and component failures and minimizing downtime.
AVL’s Harald Petschnik and Guy Gilam of Cybellum explore the impact of cybersecurity trends on the automotive ecosystem.
AVL experts present a game-changing test environment where the battery and e-motor are replaced with emulators, which are controlled from a powerful automation system.
AVL’s Gernot Hasenbichler and Klaus Fuchs explain how to transfer controls features for driver assistance systems into features for vehicles with higher automation levels.
Experts from AVL explain how to overcome the most significant fuel cell and electrolyzer testing challenges.
AVL’s Christof Danner discusses the latest brake development and testing solutions aimed at helping stakeholders achieve compliance with new non-exhaust emissions rules.
AVL’s Harald Mayrhofer presents a test system that combines particulate emission measurement techniques and testing equipment competencies to help stakeholders adhere to new brake wear emissions regulations.
AVL’s Christian Wanek-Rüdiger discusses the status of non-exhaust emission regulation and provides unique insight into AVL’s brake wear emission solution.
AVL’s Wolfgang Fritz evaluates the Mirai 2’s fuel cell technology and overall performance and discusses how it measures up to its rivals and state-of-the-art BEVs.
AVL’s Dr. Nikolaus Keuth and Robert Binder present the company’s upcoming CONCERTO 5 R6 release, a data analytics solution designed to accelerate the development of e-powertrains and components.
AVL experts explain how virtual MiL and SiL integration environments can replace traditional vehicle integration and HiL tests.
AVL experts present a series of tools that help OEMs and their suppliers achieve consumer acceptance and excitement in the areas of vehicle handling and ride comfort.
AVL’s Stefan Marksteiner and Cybellum’s Eyal Traitel explain how cyber digital twins can be automatically derived from automotive components and subsequently used to formulate security tests that verify their cybersecurity.
AVL experts present a methodic HiL/SiL environment approach to managing future legislative challenges such as EU7 and complex systems like PHEV.
AVL’s Jürgen Schneider and Dr Jan Richter of Batemo explain how to balance trade-offs and cope with high levels of complexity through early-stage development methods that utilise extensive battery pack design studies.
AVL’s Michael Sammer presents an innovative onboard fuel consumption measurement system offering the unbeatable advantage of a one-stop-shop solution covering a maximum variety of applications.
AVL’s Matthieu Clauet and Hongbo Sun explain customer pain points during the durability testing process and how to achieve optimum validation and development results using AI.
Experts from AVL and Batemo deliver a technical deep dive on the pros and cons of different EV battery formats and shares insight from opening and physically modelling a large variety of automotive cells.
Experts from AVL and Ducati discuss the advanced methodologies, tools, and facilities that helped optimize the engine performance of the motorcycle that won the 2020 MotoGP Constructors World Championship.
AVL experts discuss digital transformation trends and initiatives for simulation and test factories, focusing on critical success criteria beyond tools.
AVL’s Martin Steinbacher explains how to carry out complex ADAS and automated driving development without neglecting the end users’ expectations.
AVL experts explain how to use advanced simulation solutions to support PEM fuel cell development, from concept to calibration.
AVL’s Georg Schrank evaluate the IONIQ 5’s overall performance and discuss how it measures up to its rivals.
AVL’s Aiko Illmeier presents the methodology and results of the company’s unique ADAS performance target setting approach.
AVL’s Mickael Berdin, Martin Arntz, and Andreas Ramsauer present a tool that enables objective driveability assessment and development to help achieve optimum customer satisfaction.
Armin Engstle and Thomas Guntschnig introduce AVL’s Dynamic Ground Truth System, a highly precise solution for recording and processing real-world data to support the development and homologation of ADAS/AD systems.
AVL experts present new and adopted procedures and methods to reduce the residual risk for SOTIF in combination with functional safety.
AVL’s Heiko Scharke, Josko Balic, and Florian Klueck present the company’s toolchain for an optimized scenario-based workflow – AVL SCENIUS™.
AVL experts discuss the broader aspects around emitting CO2, including CO2 pricing, in the context of the energy and mobility sector.
AVL’s Xaver Ryppa and Vitaly Biniyaminov discuss how lab management solutions can help optimize testing infrastructure requirements for maximum efficiency and productivity.
In this free, 60-minute webinar, AVL’s Thomas Platzer explains why the successful optimization of electrified drivetrains is dependent on the careful selection of signals and calculation modes.
AVL experts explain what advanced methodologies, tools and facilities can be used to efficiently test and validate state-of-the-art electric vehicle drivelines.
AVL experts present details of a highly efficient two-speed e-axle system, which reduces costs and improves performance in SUV and light-duty BEV applications.
AVL’s Jan Viher discusses smoothed-particles hydrodynamics (SPH), an efficient method for simulating liquid dominated flows, which offers numerous advantages that result in reduced time from an engineering challenge to an answer.
AVL experts explain how to improve product qualification using an innovative End of Line (EOL) test data analysis approach.
AVL experts demonstrate how to employ a model-based lean development process to manage the best cost – performance – lifetime – packaging trade-off.
AVL experts outline a multi-faceted approach to fuel cell development, which increases efficiency by enabling an optimal balance of physical and virtualized testing and validation.
In the final instalment of this three-part webinar series, AVL experts discuss the possibilities offered by deploying new, green fuels in ICEs and showcase how CFD supports the development of alternative fuel engines.
Kurt Engeljehringer shares details of AVL’s free Emission & Energy Testing Handbook, which aims to help engineers understand and navigate this complex topic.
AVL experts discuss the challenges of standardized scenario-based ADAS/AD testing and how specialized tools can help users design, edit, verify and parametrize testing scenarios.
AVL’s Stefan Trojer and Christian Santer discuss software and hardware safety concepts that, when implemented, can help pave the way for mass adoption of FCEVs.
AVL experts discuss the role of virtual simulation in modern powertrain development, from concept to SOP.
AVL experts explore how and where solid oxide cell technology technology is applied and how stakeholders can utilize it to accelerate system development.
AVL experts discuss the challenges the automotive industry faces regarding battery safety and how to tackle them by efficiently combining testing and simulation.
AVL’s Georg Schrank introduces a methodology that helps engineers assess and develop a driving dynamics solution that makes the BEV feel lightweight, even when equipped with the heaviest batteries.
Experts from AVL discuss their approach to PEM fuel cell stack and system design for new applications and explain how to use an integrated simulation toolchain and testing ecosystem to develop better systems.
AVL experts explain how ecological and political factors are shaping the hydrogen economy.
In part two of this three-part webinar series, AVL experts demonstrate how CFD is used to support the development of a pre-chamber gasoline engine targeting improved efficiency and reduced emissions.
AVL’s Bernhard Brunnsteiner and Katja Brade discuss the challenges around battery lifetime prediction and some of the solutions on offer.
AVL experts explain particulate weight measurement basics and how to reduce or eliminate external influences on results.
AVL’s Dr. Nikolaus Keuth discusses an in-vehicle testing software solution that expedites the process and reduces the time spent on the track by eliminating numerous manual elements.
AVL experts discuss how AVL tackles these challenges to increase the efficiency of the ADAS testing process.
AVL experts explain how engineers can utilize a remote test trip solution to fulfil electric vehicle testing requirements from the comfort of their desk.
AVL’s Emre Kural, Beatriz Acero Tello, and Martin Abart explain how to successfully exploit the full potential of simulation to develop fuel cells, from configuration to SOP.
Hubert Friedl and Christian Hubmann explain how to use AVL’s advanced toolchain to develop electrified 2-wheelers that will meet customer requirements.
AVL experts explain how to turn data collected throughout the development process into decision-relevant information using the company’s highly adaptive data analytics solution CONCERTO.
Using an AVL CRUISE™ M simulation model of a sports car, experts from AVL and Batemo simulate fast-charging, aged cells and module cooling with Batemo Cells.
AVL and Batemo experts put simulation-based battery system development to the test and analyze three examples: fast-charging, cell ageing and module cooling.
AVL experts explain how to use simulators to incorporate human feedback into ADAS and autonomous driving development and testing.
AVL’s Stefan Marksteiner and David Tromba explain how to structure cybersecurity testing in an automotive environment.
AVL’s Gerald Sammer explains how the AVL Lab Management™ data and process management software solution can improve lab efficiency.
AVL experts discuss the company’s hydrogen ICE, which looks set to play a critical role in decarbonizing the goods transport sector.
AVL experts discuss how the company’s expertise in legal consulting, ADAS system engineering, and testing and validation, can help stakeholders achieve GSR compliance efficiently.
AVL and Batemo experts discuss how AVL’s high-precision physical, parameterized and validated battery cell models represent a breakthrough in battery development.
AVL experts provide insight into how 3D CFD simulation can help engineers optimize the modern ICE and obtain zero-impact CO2 emissions.
AVL’s Rainer Schantl provides unique insight into how to accelerate the modern, state-of-the-art vehicle development process.
AVL experts discuss a virtual solution that uses CFD and MBD simulation to predict cylinder liner cavitation and its consequences.
AVL experts introduce a new E-Motor analysis system, which enables the measurement of torque and lateral forces at any rotation speed with a single sensor.
AVL experts Gerhard Schagerl and Martin Rothbart discuss the role that Vehicle-to-grid (V2G) technology is poised to play in the future of mobility.
Experts from AVL discuss a virtualization solution, which offers a lower cost and more efficient alternative to traditional hybrid powertrain development methods.
AVL’s Dr. Josef Zehetner discusses a comprehensive approach on how to drive digitalization in the vehicle development verification and validation process.
AVL experts provide insight into modern simulation-based filter development techniques, which enable the adoption of passive filters into an electric environment.
AVL’s Michael Sammer provides detailed insight into a universal flow measurement system that covers a wide range of applications.
AVL experts provide deep insight into new inverter and component test setups and outline the benefits of ripple current testing for present and future challenges.
AVL experts explain how to simulate the dynamic behaviour and NVH response of transmissions and electric axles.
AVL’s Georg Schrank and Christoph Klement provide an in-depth analysis of the company’s latest benchmarking tests for the new Porsche Taycan’s 800V powertrain and battery.
AVL’s Marijn Hollander demonstrates a cost-effective digital solution, which enables the execution of prepared tests without the need for a calibration engineer on-site.
Experts from AVL discuss a fuel cell testing solution, which can help stakeholders achieve a development process that is both cost- and time-efficient.
Engelbert Loibner of AVL outlines a comprehensive approach to support decision making for the industry’s most pressing vehicle development questions.
Experts from AVL discuss how virtual development can be used to understand and inhibit thermal runaway propagation in lithium-ion battery systems.
AVL’s Wenzel Prochazka discusses how to cool an electric vehicle battery using a dielectric fluid to remove heat from the cells, contactors and busbars.
AVL’s Dr. Wolfgang Puntigam discusses new approaches within the vehicle development process and its evolution into an open development ecosystem.
AVL’s Horst Hammerer provides unique insight into how to test power electronics in an emulated environment.
AVL experts discuss the company’s 0D-, 1D- and 3D-simulation solution, which offers a framework enabling the efficient development of zero-impact-emission after-treatment systems.
Experts from AVL provide exclusive insight into the creation of a tech center capable of meeting future mobility testing demands.
AVL experts discuss the Ajunic ECU, which can be installed in passenger and commercial vehicles to implement ADAS and automated driving functions.
AVL experts provide an overview of the power measurement capabilities of the AVL X-ion™ e-power analyzer on an inverter testbed.
Experts from AVL present methodologies to measure, calculate and predict electric vehicle battery health and lifetime for first and second life applications.
Experts from AVL explain how to create efficient ADAS / AD test programs for commercial vehicles to ensure optimum coverage with uncompromised safety.
AVL’s Jan Viher discusses the benefits of vehicle water wading simulations in the development process, and how they can save time and reduce test costs.
AVL’s Benoit Stalin provides unique insight into the best ways to test electric vehicle battery cells.
Experts from AVL discuss the company’s virtual Hybrid Engine Test System, which offers a transparent method to increase development efficiency using real-time simulation and a harmonized calibration toolchain.
Experts from AVL explain how the PMSM e-drive calibration process can be accelerated using optimized testing solutions and an Active DoE approach.
Experts from AVL discuss the impact of Post-Euro-6 emission regulations on vehicle and engine R&D emission testing.
AVL’s Juergen Schneider and Christian Mentin from Silicon Austria Labs discuss how designs can be tested and optimised in virtual environments before and during real-world implementation.
AVL’s Gerald Zotter outlines how model-based testing technology can accelerate and optimise vehicle range and comfort development.
AVL’s Guilermo Pezzetto and Michael Peinsitt provide insight into how a simulation tool package can become an essential asset for success.
AVL’s Marinette Iwanicki explains how to maximise the efficiency of a battery testing lab with the company’s holistic lab management software solution.
AVL’s Kurt Engeljehringer provides unique insight into how Post Euro-6 emission testing can be done today.
AVL’s Juergen Schneider and Bernhard Brunnsteiner present a unique simulation method for detailed analysis of thermal runaway in electric vehicle batteries.
AVL’s Cuneyt Dagdeviren and Jürgen Tochtermann discuss ways to meet HD vehicle performance requirements, highest system efficiency demand and tight packaging boundaries.
AVL’s Daniel Blaindorfer discusses how drivetrain efficiency can be a performance differentiator in different premium racing series.
AVL’s Gerald Sammer explains how the company’s data and process management solution can help boost lab efficiency.
AVL’s Oliver Knaus discusses eSUITE, the company’s tailored simulation solutions for engineers developing electric and hybrid electric vehicle technology.
AVL’s Andreas Aldrian provides insight into how the company’s automotive IoT platform for data-driven business will provide instant data availability with the highest security standards.
AVL’s Michael Bires explains how effective thermal management strategies can help automakers improve the efficiency of electric vehicles.