Kaspersky and AVL Software and Functions develop secure autonomous driving controller
Kaspersky is announcing the first successful integration of its new automotive KasperskyOS into an electronic control unit (ECU) of an advanced driver-assistance system (ADAS), developed by AVL Software and Functions GmbH (AVL SFR).
This controller is an open and customizable development platform for both prototype and series development, and is safe and ‘secure by design’ as it runs on KasperskyOS. In this application, the secure operating system is designed to protect communications between ADAS components and to safeguard all the autonomous vehicle functions. As part of the security features, KasperskyOS guarantees that undeclared functionality – either unnoticed at launch or inserted through system updates – cannot be exploited and will not affect the performance of autonomous vehicles.
Automation in vehicles is set to improve people’s lives, by enhancing the mobility experience, improving road capacity and simply freeing up time that would have been previously spent on driving. However, one of the main concerns that sceptics have with the technology is its safety. There have already been several cases that prove just how important cybersecurity is to ensure physical safety, as vulnerabilities have previously allowed malefactors to take control of a car. That’s why Kaspersky is continuing its research and development of solutions and services for securing vehicles with ADAS functionalities by collaborating with AVL SFR – a member of the world's largest independent automotive engineering company for development, simulation and testing.
Based on a new ECU platform by AVL SFR, the ADAS ECU features two high-performance system-on-a-chip processors, a safety controller and provides vast connectivity capabilities - including links to cameras, lidars and other related components. The hardware platform also supports Controller Area Network and automotive Ethernet standards, allowing secure communication between devices within a vehicle.
In most known cases, malefactors exploited code mistakes, unintentionally left by developers. This can happen because modern vehicles are complex systems, making it hard to manage the security of all the components. Moreover, these systems are regularly updated, and it is important to ensure that changes in one component will not affect how a vehicle operates. KasperskyOS provides strong separation between components, so any unwanted interference is not possible by default. The interaction between all electronic components is controlled by the Kaspersky Security System, the security policy engine within KasperskyOS. It monitors the launch of processes, as well as communications between each component and with the operating system.
As a new associate partner of AUTOSAR, a consortium aimed to develop mutual standards for automotive software architecture, Kaspersky has also developed a software development kit (SDK) dubbed as the Kaspersky Automotive Adaptive Platform. With this SDK, AVL SFR can develop applications for automated and even driverless vehicles – such as delivering auto-piloting features, controlling safety systems and monitoring their health. This set of libraries also allows for other software to be adopted, which follow AUTOSAR Adaptive requirements, and work on KasperskyOS without additional changes. Kaspersky Automotive Adaptive Platform is ready to be delivered and AVL SFR is showcasing its auto-piloting application to several automotive customers.
“When it comes to partially controlled autonomous vehicles, it becomes especially important to guarantee security and safety of the driver, along with passengers and pedestrians. Even if there are vulnerabilities in a vehicle’s software, any attempts to leverage them to cause harm will not succeed, as they will be prevented by our operating system, KasperskyOS. We are excited to partner with AVL SFR on developing the autonomous driving controller and proud that together we have created a system that combines security and safety,” comments Grigory Sizov, Head of KasperskyOS Business Unit, Kaspersky.
Dirk Geyer, Head of Product Segment Safety & Security at AVL SFR, highlights that: “The sophisticated and complex functionality running on connected high performance controllers, like the ADAS ECU, must be protected by a holistic security base, which is located at the level of the operating system. The automotive KasperskyOS has been explicitly designed in that way, as to provide a layer of trust for safety, availability, privacy and reliability for these control systems.”
AVL SFR presented the ADAS ECU. It is ready for prototyping projects at OEMs and Tier-1 suppliers.
Read more about Kaspersky Automotive Adaptive Platform on the website.
Kaspersky is a global cybersecurity company founded in 1997. Kaspersky’s deep threat intelligence and security expertise is constantly transforming into innovative security solutions and services to protect businesses, critical infrastructure, governments and consumers around the globe. The company’s comprehensive security portfolio includes leading endpoint protection and a number of specialized security solutions and services to fight sophisticated and evolving digital threats. Over 400 million users are protected by Kaspersky technologies and we help 250,000 corporate clients protect what matters most to them. Learn more at www.kaspersky.com.
About AVL Software and Functions GmbH
AVL is the world's largest independent company for the development, simulation and testing of powertrain systems, their integration into the vehicle as well as new fields like ADAS/AD and Data Intelligence.
AVL Software and Functions was founded in 2008 and has been experiencing strong growth ever since. We are developing technologically leading software and system solutions for intelligent and ecologically compatible mobility as well as system integration and electronics development.
Based on our strong technical knowledge, we cooperate with our customers and partners like Kaspersky worldwide and together we find comprehensive solutions. The focus is on fuel-saving topics, performance optimization and pollutants minimization for classic drive concepts and increased efficiency for e-mobility applications, as well as safety- and security applications and digitalization services. Learn more: www.avl-functions.com.