Secure isolation for Linux-based automotive computers
Elektrobit’s Gabriel Byman and Isaac Trefz explore the concept of secure isolation and the various layers required to protect systems from cyber threats.
Elektrobit’s Gabriel Byman and Isaac Trefz explore the concept of secure isolation and the various layers required to protect systems from cyber threats.
Elektrobit’s Simone Böttger and Hannes Hennig explain how to protect today’s systems well into the future using cutting-edge quantum-resistant technologies.
Elektrobit’s Dr. Moritz Neukirchner explores the first certified approach for Linux in safety-related environments, enabling its extensive ecosystem in connected automotive systems.
Matthias Beckert presents Elektrobit’s EB corbos Linux built on Ubuntu SDK with new application development concept, which makes it easy to build images for your specific hardware.
Simone Weiss and Thomas Irgang present Elektrobit’s EB corbos Linux built on Ubuntu SDK, which improves flexibility, customization, and ease of hardware adaptation.
Elektrobit’s Dr. Moritz Neukirchner introduces “Moritz’s SDV Levels”, a framework inspired by SAE levels of autonomy, outlining the stages of SDV evolution from Level 0 to Level 5.
Elektrobit’s Isaac Trefz and Andreas Zdziarstek of emlix discuss the Linux boot process and present two Free and Open Source Software (FOSS) tools.
Elektrobit’s Joel Thurlby explores the challenges and strategies of integrating safety-related software components into automotive software platforms.
Elektrobit experts present a solution that enables the testing of ECU functions, system integration, and communication in a simulated environment under realistic conditions.
Elektrobit’s Lucian Badescu explains how OEMs and Tier1s can overcome the challenges caused by the vast landscape of EV communication charging standards and vehicle platform changes.
Elektrobit’s Gabriel Byman and PlaxidityX’s Danny Noack explore strategic cybersecurity measures for future-proofing software-defined vehicles.
Elektrobit experts discuss how to optimize commercial vehicles for connectivity, cost efficiency, vehicle health, driver safety, sustainability, and regulatory compliance.
Elektrobit experts explain how to add or upgrade to the latest version of Android Automotive in their digital cockpit at any point in the vehicle lifecycle.
Sergej Schmunk and Christian Dittrich present Elektrobit’s Theming Engine, an easy-to-use solution for developing and customizing Android in-vehicle infotainment systems.
Elektrobit’s Elisabeth Waitz and Pavithra Kumaraswamy discuss the unique complexity faced by the automotive industry in implementing IDS.
Elektrobit’s Bastian Speth presents a test vehicle logging device that uses AI technology to capture only the data you need and improve test quality and results.
Elektrobit’s Biswajit Jana and Sandeep Sudhakaran discuss evolving trends in the connectivity and infotainment space and the window of opportunities to adopt these trends.
Elektrobit’s Lazo Eric, Prashanth Kurumbudel, and Tommi Tallgren provide unique insight into the technologies shaping the future of the motorcycle industry.
Elektrobit’s Stephan Schuster and Christoph Rade explain how to open the user interface for personalization through GenAI to provide an immersive, entertaining, and satisfying driving experience.
Elektrobit’s Veli Matti Lastumäki and Manoj Sharma explain the central role of cryptography in safeguarding automotive systems.
Elektrobit’s Illia Safiulin present the first solution to bridge the gap between Classic AUTOSAR and the new generation of hardware accelerators to provide seamless configuration and integration.
Elektrobit’s Joel Thurlby outlines the impact of functional failures and interference on vehicle functions and automotive software.
Elektrobit’s Carolin Kester and Veli Matti Lastumäki explain how to enhance the security and reliability of automotive systems.
Elektrobit’s Ryan Goff discusses the first steps of working with EB corbos Linux in the containerized build environment and Microsoft Visual Studio Code.
Elektrobit’s Simone Weiss and Michael Estner use real-world examples to explain the importance of upgrading Yocto-based products.
Elektrobit’s Dr Moritz Neukirchner presents a new SDV development model, focusing on technological barriers, and solutions to overcome them.
Elektrobit’s Prof. Dr. Joachim Schlosser explains how to different aspects of software development to create a successful development model.
Elektrobit’s Illia Safiulin discusses zonal architectures and their impact on a real-life scenario regarding in-vehicle communication networks.
Experts from Elektrobit and Ather present an architecture that enables seamless migration of AUTOSAR for electric two-wheelers.
Elektrobit’s Isaac Trefz and Uwe Hildebrand present findings from research aimed at creating a proof-of-concept using NXP S32G2 with its HSE subsystem as the target hardware platform.
Leading experts discuss the challenges and opportunities arising from customizing software-defined vehicle user interfaces for increased customer satisfaction.
Elektrobit’s Dr Bruno Kleinert and Francesco Petruzziello of ST reveal how the new Stellar Integration MCU’s virtualization enables isolated execution of multiple OS and AUTOSAR stack instances on a single chip.
Elektrobit’s Pavithra Kumaraswamy and Andrei Rus explain how to enable secured global time synchronization in automotive networks to reduce potential security risks in vehicles.
Elektrobit’s Joachim Schlosser discusses problems and possible solutions associated with open-source components and platforms in the automotive industry.
Elektrobit’s Dr Moritz Neukirchner discusses how the industry is changing towards software-defined vehicles and what this means technologically and from a market perspective.
Experts from Elektrobit and Infineon discuss how the new AURIX™ TC4x MCU’s virtualization enables isolated execution of multiple OS and AUTOSAR stack instances on a single chip.
Elektrobit’s Gabriel Byman and Veli Matti Lastumäki discuss automotive connectivity challenges and the benefits of physical protection against data theft and vehicle software alteration.
Elektrobit’s Joel Thurlby and Isaac Trefz explain how development teams can use a bare-metal hypervisor to achieve functional safety while still supporting the needs of quality-managed applications.
Experts from Elektrobit discuss how new software-defined vehicle and automotive OS concepts promise a paradigm change in development processes.
Elektrobit’s Ryan Goff explains some of the tools and documentation necessary to get started with EB corbos Linux, the open-source operating system for high-performance computing.
Elektrobit’s Jens Petersohn and Andreas Zdiarstek of emlix present a testing method designed to improve the reliability of Linux-based products.
Elektrobit’s Moritz Neukirchner and Norman Hänsch discuss safety and security as significant challenges for software-defined vehicles.
Elektrobit’s Gabriel Byman and Tommi Tallgren explain how to achieve compliance with UN regulation 155 throughout the vehicle’s life cycle.
Elektrobit’s Jan Rüdiger presents a scalable software platform design approach and methodology for performance-based AUTOSAR.
Experts from Elektrobit discuss the safety risks in high-performance controllers and explain how to build ISO 26262-compliant software architectures.
Elektrobit’s Susanne Hartkopf and Thomas Irgang present a proven approach to reducing the risk of failures when using OSS in a project.
Elektrobit’s Moritz Neukirchner provides unique insight into why a software-defined vehicle requires an automotive OS.
Elektrobit’s Joachim Schlosser and Kaloyan Rusev explain how to isolate apps in software instead of single ECUs.
Elektrobit’s Lucian Badescu explains why autonomous vehicles complying with SAE Levels 3 to 5 require fail-operational x-by-wire E/E systems.
Elektrobit’s Dr Simone Böttger and Danny Noack of Argus Cyber Security explain how to secure AUTOSAR-based ECUs to meet regulatory requirements using IDPS.
Elektrobit’s Lukas Bulwahn and Michael Armbruster explain how to model a software architecture that enables the development of a software system free from interference between architectural elements.
Elektrobit’s Joel Thurlby and Moritz Neukirchner discuss the role of a bare-metal hypervisor in abstracting vehicle resources and allocating them to clusters of vehicle functions in a SDV.
Experts from HERE Technologies and Elektrobit discuss the Euro NCAP regulation, its ratings, and how it connects with ISA and highly accurate location data.
Elektrobit’s Joel Thurby and Kai Lampka discuss the challenges in migrating the architecture of ECUs and the revolution in the approach to sharing a common platform.
Elektrobit’s Roman Iseler explains how EB tresos 9 provides the development foundation for ECU middleware solutions.
Elektrobit’s automotive network experts present the reasoning and methodology of using the multi-core distribution of CAN and Ethernet stacks that lead to significant benefits.
Elektrobit and Qt Company experts discuss the future of digital cockpits and explain how the partnership between their companies enables a resource-efficient, turnkey development solution for the automotive industry.
Elektrobit’s Joel Thurlby explains how hypervisor technology provides the foundation for a safe and secure automotive operating system.
Elektrobit’s Bastian Speth explains how to remove bottlenecks in the software development process.
Experts from Elektrobit and Argus Cyber Security demonstrate a software solution that can improve the management and protection of E/E architectures from within the Ethernet switch.
Experts from Marvell and Elektrobit explain how innovative hardware solutions and intelligent software can jointly deal with the challenges posed by emerging connected vehicle trends.
Tatiana Vyunova of HERE Technologies and Elektrobit’s Dirk Spiesswinkel explain how the integration of GNSS and precise positioning affect the electronic horizon platform for ISA.
Experts from HERE Technologies, Elektrobit and Continental explain how to solve ISA customer pain points and outline the benefits of using map data and the electronic horizon platform for ISA.
Elektrobit’s Illia Safiulin provides unique insight into the demands on software solutions needed for new zonal architectures in connected vehicles.
Elektrobit’s Moritz Neukirchner discusses the fundamentals of automotive operating systems and how they impact the industry.
David Dionis from Elektrobit shares information on the Adaptive AUTOSAR model and highlights best practices using model editor, tree editor, and adaptive table view in EB corbos Studio.
Philip Hubertus of HERE Technologies and Elektrobit’s Dirk Spiesswinkel explain how to solve ISA customer pain points, and outline the benefits of using map data and the eHorizon platform for ISA.
Elektrobit and Qualcomm experts explain how to use intelligent and modular combinations of hardware and software to provide an up-to-date user experience for vehicle occupants.
Dr. Bruno Kleinert of Elektrobit and NXP’s Daniel Basler provide an overview of RTD software and explain how the EB tresos product line can reduce the cost and development time of AUTOSAR projects.
Elektrobit’s Nazareth Samson presents a bird’s-eye view of augmented reality and explains its role in the future of mobility.
EB experts discuss the latest UNECE regulations covering over-the-air software updates and explain how OEMs and suppliers can overcome evolving challenges to implement them successfully.
Elektrobit’s Roland Schimpf and Uwe Meißner explain how to create state-of-the-art in-vehicle user experiences.
EB’s Frank Uhlig explains how automakers can successfully integrate Android Automotive and offer their customers unique in-car experiences.
Elektrobit’s Jens Storz explains how the Remote Procedure Call (RPC) of its ADTF 3 solution allows users to create a customized interface that caters for all requirements.
Experts from Elektrobit and Kvaser explain how their integrated toolchain provides optimized CAN data acquisition for ADAS environments in virtual, real-time, remote, and logging scenarios.
Jochen Messner discusses EB Assist ADTF 3, the latest version of Elektrobit’s development tool, which provides an improved API and modularity for handling the requirements of ADAS and automated driving development.
EB’s Roman Iseler explains how to overcome communication problems by integrating Vehicle-to-Grid software stacks into the AUTOSAR architecture.
Elektrobit’s Thorsten Weißer explains how to expedite the development and rapid prototyping of automated driving and ADAS using EB Assist ADTF 3.
Experts from Elektrobit and Argus Cyber Security explain the need for a secure architecture and how to enforce security zones with intrusion detection and prevention systems.
Elektrobit’s Vishal Mishra discusses the future of vehicle software infrastructure and explains how to develop HPCs with Adaptive Autosar.
Experts from Continental, HERE Technologies, and Elektrobit discuss how to implement ISA and make it an industry-standard feature.
Elektrobit’s Jan Rüdiger offers first-hand expertise on the latest HPC engineering requirements, advanced integration concepts, proven testing and debugging strategies.
Experts from Elektrobit and Argus Cyber Security provide insight into the technology challenges posed by the new requirements and discuss innovative ways in which OEMs and their suppliers can address them.
EB’s Dr Sebastian Ohl outlines a new approach to the development and integration of next-generation automotive architectures based on HPC.
Elektrobit’s Steffen Kuhn describes how agile practices can be combined with the application of the functional safety standard ISO 26262 when developing safety-related automotive embedded software.
Experts from Elektrobit and Unity discuss how to connect HMI development processes and extend the power of real-time rendering to create next-generation, future-proof user experiences.
Elektrobit shares highlights of EB Assist ADTF 3 and its latest releases as cornerstone for development and validation
Borislav Nazarski, Elektrobit’s testing and validation expert, explains how to overcome the challenges involved in automating UI tests.
Elektrobit’s Wolfgang Völkel provides insight into scalable Hardware-in-the-Loop (HiL) solutions for ADAS ECU validation.
Soyuj Kumar Sahoo and Dr Timo Sowa of Elektrobit outline a brand agnostic solution to create smart dialogs for in-vehicle infotainment using voice assistants.
Dr. Joachim Schlosser of Elektrobit provides unique insight into the role Scrum framework can play in embedded automotive software development.
Elektrobit’s Dr Sebastian Ohl showcases a solution using a high-performance ADAS system and a safety ECU running AUTOSAR Adaptive and Classic.
Elektrobit’s Jörg Scherer shares best practices for a cluster HMI project that evolves from prototype to production-ready.
Experts from Elektrobit and ANSYS demonstrate how optical simulation and virtual prototyping can help to solve the challenges of HUD design.
Elektrobit’s Jochen Steuerwald demonstrates a typical workflow using EB tresos, a tooling solution for electronic control unit development using AUTOSAR Classic.
Elektrobit demonstrates how the EB robinos Predictor Eval Kit generates an ADASIS electronic horizon in a development environment.
Continental’s Bruno Nunes-Silva and Peer Sterner of Elektrobit outline the general trends in in-vehicle architectures with HPCs and share their experience with Adaptive and Classic AUTOSAR platforms.
Experts from Elektrobit and Equinix discuss ways to manage the massive volumes of data required for ADAS and automated driving development.
Catalin Priboi Catalin, Elektrobit’s HMI development tooling expert, outlines how EB GUIDE can help improve the automotive user experience.
Elektrobit’s head of User Experience and User Interface Design Frank Uhlig discusses the impact of autonomous driving systems on cars as an experience space.
Elektrobit’s Roman Iseler discusses how to monitor the time domain in a multi-core safety system by utilizing the features of the EB tresos Safety TimE Protection module.