Elektrobit Corporation is a Finnish company headquartered in Oulu.Elektrobit, EB is an engineering company in Wireless and Automotive businesses. EB is specialized in embedded software and hardware solutions for automotive and wireless industries.The company's customer segments include the telecommunications, automotive, and defense industries. Elektrobit's business comprises two Business Segments: Wireless and Automotive.On 28 January 2013 Anite plc of the U.K. announced it would acquire the Elektrobit System Test Ltd. subsidiary from Elektrobit Corporation , representing the Propsim portion of EB's business. The acquisition was effective 1 February 2013. Wikipedia.
Elektrobit | Date: 2016-08-23
The present disclosure relates to a method and a device for the automatic stopping of a vehicle in a target area. A method aspect of the disclosure comprises providing map data in which potential target areas for stopping of vehicles are defined by at least one attribute of map elements detecting an event that necessitates an automatic stopping of the vehicle determining a target area on the basis of the current position of the vehicle and the potential target areas defined in the map data, and triggering, on detection of the event, an automatic stopping process.
Agency: European Commission | Branch: FP7 | Program: JTI-CP-ARTEMIS | Phase: SP1-JTI-ARTEMIS-2013-AIPP5 | Award Amount: 93.92M | Year: 2014
Embedded systems are the key innovation driver to improve almost all mechatronic products with cheaper and even new functionalities. Furthermore, they strongly support todays information society as inter-system communication enabler. Consequently boundaries of application domains are alleviated and ad-hoc connections and interoperability play an increasing role. At the same time, multi-core and many-core computing platforms are becoming available on the market and provide a breakthrough for system (and application) integration. A major industrial challenge arises facing (cost) efficient integration of different applications with different levels of safety and security on a single computing platform in an open context. The objective of the EMC project (Embedded multi-core systems for mixed criticality applications in dynamic and changeable real-time environments) is to foster these changes through an innovative and sustainable service-oriented architecture approach for mixed criticality applications in dynamic and changeable real-time environments. The EMC2 project focuses on the industrialization of European research outcomes and builds on the results of previous ARTEMIS, European and National projects. It provides the paradigm shift to a new and sustainable system architecture which is suitable to handle open dynamic systems. EMC is part of the European Embedded Systems industry strategy to maintain its leading edge position by providing solutions for: . Dynamic Adaptability in Open Systems . Utilization of expensive system features only as Service-on-Demand in order to reduce the overall system cost. . Handling of mixed criticality applications under real-time conditions . Scalability and utmost flexibility . Full scale deployment and management of integrated tool chains, through the entire lifecycle Approved by ARTEMIS-JU on 12/12/2013 for EoN. Minor mistakes and typos corrected by the Coordinator, finally approved by ARTEMIS-JU on 24/01/2014. Amendment 1 changes approved by ECSEL-JU on 31/03/2015.
Agency: European Commission | Branch: FP7 | Program: JTI-CP-ARTEMIS | Phase: SP1-JTI-ARTEMIS-2012-AIPP1 | Award Amount: 81.51M | Year: 2013
CRYSTAL aims at fostering Europes leading edge position in embedded systems engineering in particular regarding quality and cost effectiveness of safety-critical embedded systems and architecture platforms. Its overall goal is to enable sustainable paths to speed up the maturation, integration, and cross-sectoral reusability of technological and methodological bricks of the factories for safety-critical embedded systems engineering in the areas of transportation (aerospace, automotive, and rail) and healthcare providing a critical mass of European technology providers. CRYSTAL perfectly fits to other ARTEMIS projects, sharing the concept of a reference technology platform (RTP) as a consistent set of integration principles and seamless technology interoperability standards. Based on the methodologies of a service-oriented architecture and the results of previous projects CRYSTAL focuses on an industry-driven approach using cross-domain user stories, domain-specific use cases, public use cases, and technology bricks. This shall have a significant impact to strengthen European competitiveness regarding new markets and societal applications. In building an overall interoperability domain embedded systems, CRYSTAL will contribute to establishing a standard for model-based systems engineering in a certification and safety context which is expected to have global impact. By bringing together large enterprises and various industrial domains CRYSTAL will setup a sustainable innovation eco-system. By harmonizing the demands in the development of safety-relevant embedded systems including multi-viewpoint engineering and variability management across different industrial domains, CRYSTAL will achieve a strong acceptance from both vendors and the open-source community. CRYSTAL will drive forward interoperability towards a de facto standard providing an interoperable European RTP. Approved by the JU on 20-03-2015
Agency: European Commission | Branch: H2020 | Program: RIA | Phase: ICT-32-2014 | Award Amount: 3.11M | Year: 2015
Developing new security paradigms, architectures, and software, for more secure and trustworthy ICT systems and services has clear social, scientific, and market motivation. This motivation is becoming stronger due to the changing threat landscape; over the past decade we are witnessing an ever-increasing amount of cyberattacks on the Internet. We believe that to advance the field of cybersecurity, we must act proactively and in synergy, instead of being reactive to cyberattacks. We propose SHARCS, a framework for designing, building and demonstrating secure-by-design applications and services, that achieve end-to-end security for their users. SHARCS will achieve this by systematically analyzing and extending, as necessary, the hardware and software layers in a computing system. This holistic approach is necessary, as no system can truly be secure unless every layer is secured, starting from the lowest one. We will measure the effectiveness of the SHARCS framework by using it on a diverse set of security-critical, real-word applications. The applications have been chosen from three different domains, medical, cloud and automotive, to demonstrate the platform independence capabilities of SHARCS. SHARCS will provide a powerful foundation for designing and developing trustworthy, secure-by-design applications and services for the Future Internet.