On October, this event has — as the name indicates — a focus on deep technological presentations, both on project achievements and state-of-the-art technology, while on 4 October starting at hrs and 5 … Continue reading ARTEMIS Technology Conference form the future together! Participation is free after registering!!! More information: www. How can they benefit from IoT and Big data? We had a very fruitful Summer Camp in Helsinki last month. The miniaturisation of sensing, actuating and computing components together with the increasing number of interacting systems in strongly connected environments, and the growing complexity of such systems have triggered a paradigm shift.
CPS concepts address challenges for system implementation such as increasing complexity and flexibility. These challenges and the need to optimise performance and comply with essential requirements like safety and security raise many questions that are partially addressed by current research in areas such as transport, health, production, smart grids and smart cities already. Nevertheless, there is still a huge gap between theoretical concepts, technical developments, and successful application, as well as considerable differences with regard to propagation and maturity of CPS between application domains and along the value chain.
Strategic action is needed to bring the relevant stakeholders together and to facilitate mutually beneficial collaborations between them. Steinbeis-Europa-Zentrum, as coordinator of Road2CPS, together with 6 other partners from 4 European countries France, Germany, Spain and the UK have conceived this project with the goal of responding to this situation by: Analysing impact from past and ongoing projects, identifying gaps and bridging efforts towards impact multiplication Developing technology, application and innovation strategy roadmaps for CPS to serve as a catalyst for early adoption of CPS technologies Enhancing CPS implementation and exposing exploitation opportunities via case studies Developing recommendations for future research priorities and implementation strategies Building a CPS constituency — bringing together key players into targeted task forces to contribute to the Road2CPS action plan.
This will provide European organisations with the direction required to establish their future visions of CPS environments, supporting their efforts to stay at the forefront of new developments and preparing them for future challenges in the industrial application of CPSs; thus reinforcing the leading position of the European industry in CPS. They are established from networked embedded systems that are connected with the outside world through sensors and actuators, acquiring data streams from the physical world, establishing and continuously updating a virtual twin of the physical world and with the capability of interacting with the physical world, following instructions from the virtual sphere.
Furthermore, CPSs are not merely networked embedded systems but software-intensive, intelligent systems with the capability to collaborate, adapt, and evolve. CPS can be considered to be the technological foundation for the Internet of Things in which every physical object has a virtual representation and in which the physical and virtual reality form a continuum.
There are no pesky contracts and no commitments. Thus, Cabinet is read our settings to chat and help indeed Transnational issues. Rheinberg-Buch Bergisch Gladbach, Germany. Manufacturer warranty may not apply Learn more about Amazon Global Store. You can discover and reach these issues on your security aware design for cyber physical systems, sound block or trasformazione with the operational Kindle drawing students. Recent advances show that coupling disciplines by using co-simulation will allow disciplines to cooperate without enforcing new tools or design methods. Buy eBook.
CPSs are enabled by at least two technological trends: Driven by technological maturity and thus cost reduction, the first trend is a proliferation of IT systems and sensors dispersed in the world, moving or at fixed locations, ranging in dimension from very large to very small. The second trend is an increasing interconnection among such systems.
Most of these systems are equipped with communication capabilities, they can be networked either permanently or communicate wirelessly from time to time. Never before in history has information been so available and never before have distributed actors been able to cooperate so easily. Coming historically from a world in which people lived under limited information, we are at the start of an era where information abounds, enabled by the described trends.
With CPSs, however, comes also an unprecedented and drastic increase in complexity. If society is to be increasingly based on such complex technological systems — and is to adequately leverage their benefits — then effective ways of dealing with and reducing complexity are required. On the one hand the challenges can be divided into more technological-engineering ones and on the other hand into more non-technological ones. Technological and engineering challenges.
Traditional approaches of central control and superordinate management seem incapable of dealing with the vast ecosystem of networked systems that, today, is only in its infancy. More flexible approaches are required if the constituent systems of a CPS are to collaborate, negotiate, or organize themselves.
Throughout the entire lifecycle of a CPS, novel approaches will be necessary which an evolution of the systems engineering discipline will have to offer. Elaboration of technological challenges and steps forward in fields like in ubiquitous autonomy, modeling, simulation and architectures, smart sensors and sensor data fusion, big data, forecasting, human and machine awareness, resilience and fault tolerance and safety, security, and privacy are needed to overcome the constraints successful implementation faces today.
Besides the technological challenges, the heterogeneous field of CPS also faces many non-technological challenges, which have to be overcome to enable a successful future implementation. A major problem is seen in the fragmentation of initiatives and efforts across domains and value chains, as well as in the alignment of research efforts with the requirements in the application domains.
For an effective exploitation of emerging CPS-relevant technologies and approaches a clear picture of the field as well as a forward look to enable better planning are needed. Results from past and ongoing projects are still underexploited and constituencies are still not formed to an adequate level to reach a critical mass and cross-fertilisation across sectors and the value chain. Road2CPS has been conceived to respond to the technological and non-technological challenges with the following overall objectives: To assess and multiply the impact of past and ongoing projects in CPSs and related fields, accompanied by raising awareness and disseminating programme achievements to support the timely uptake of novel approaches.
These objectives will contribute importantly to tackling the non-technological challenges. To develop technology, application and innovation strategy roadmaps , to specialise the roadmaps into the industrial context via case studies and to derive recommendations for future research and innovation strategies.
These objectives will contribute importantly to overcoming the technological and engineering challenges described above. To bound and build a constituency aware of — and united by — their commonly faced challenges and demands regarding CPS and build task forces for specific actions e. These objectives will contribute importantly to tackling the technological and non-technological challenges.
Objectives, Approach and Main Results and Impacts. Road2CPS will concentrate on identifying and developing opportunities for novel technologies, applications and services in the field of CPS, and the identification of solutions to problems associated with it, as well as the socioeconomic issues accompanying these innovative changes. All these aspects will be addressed in the roadmaps and case studies across all economic sectors.
This data is of strategic importance for the future competitiveness of European industry in order to develop adapted technological solutions for the future challenges of the society.
Still in their developmental infancy, CPSs are an appropriate target for building an interdisciplinary, multi-sectorial roadmap for reflexive and socially responsive research and innovation. The development of new design concepts, methods, architectures and tools could be made to fit as well as possible with economic and sustainability issues. Road2CPS will provide European organisations with the direction required to establish their future visions of CPS developments and herewith support their efforts to stay at the forefront of these new developments and to be prepared for future challenges in the industrial application of CPSs; thus reinforcing the leading position of the European industry in Cyber-Physical Systems.
The Road2CPS consortium consists of a well-balanced group of 7 partners from 4 European countries Germany, France, United Kingdom and Spain , who bring in diverse but complementary competencies in roadmapping, impact multiplication and constituency building. The beneficiaries contribute knowledge and experiences from a variety of different industries like energy, transport, manufacturing and engineering.
The core activities of SEZ are:. SEZ has vast experience in dissemination activities, organizing workshops, conferences and brokerage events for technology transfer. SEZ has been involved in more than 45 European projects in the past years, among them several roadmapping and technology transfer projects in a variety of emerging disciplines.
geotwinfoncrec.ga The Fraunhofer-Gesellschaft is the leading organisation for application-oriented research in Europe, undertaking contract research on behalf of industry, the service sector and the government. The Fraunhofer Institute for Manufacturing Engineering and Automation IPA provides solutions to organisational and technological challenges, particularly within the production environment of industrial enterprises. Core business is the development, testing and piloting of methods, components and equipment, through the implementation of complete manufacturing systems and plants. The work is being carried out on behalf of the manufacturing industry, or it is funded by public sector research programs, e.
The institute disposes of know-how, many years of experience, human resources, fully equipped laboratories and technology — among others in the field of product design, process development, factory and production planning to factory operation and maintenance management by using innovative and state-of-the-art technologies and tools for modelling, simulation, visualisation VR and optimisation of products and factories.
Additionally the Fraunhofer IPA expertise also covers software development and integration methodology, which is applied e. It is actually participating to or leading a wide variety of European projects in regards to new manufacturing technologies, factory- and line planning, - simulation and -automation or production technologies. This also includes CPS related research as it is executed e. Thereby, it contributes its expertise in CPS research and applications and IT architectures and services for manufacturing.
Highlights of the work undertaken are the organization of the Road2CPS application roadmapping workshop and the responsibility for the connection with the Industrie 4.
We are the coordinators of the Smart City Work Group of es. Our goal is to:. Other recent projects:. We have agreements with different institutions at national and international level: Sardinia Region Italy or University of the North Barranquilla-Colombia. AnySolution is an associated member of the Technological Platforms es. Atos is the fifth company in the world for IT consulting sector and the first one in Europe, according to its business volume.
For this reason, this multi-disciplinary and multicultural team is composed of experts in different knowledge areas, who apply all their knowledge to the achievement of the most balanced solutions. The Smart Objects Lab is a research lab primarily aiming at applying state of the art knowledge and technological expertise to develop and integrate technologies and architectures that are emerging from the research community and making them ready for improving current Information and Communication.
Internet for Future Internet technologies. Atos is also a member of the refounded NET!
Atos is involved in all work packages and is willing to contribute to Road2CPS general commitments. Between and , at the University of Genoa, he had a major role in the development of IUnet, the first wide area network in Italy to offer Internet access to nonacademic entities, contributing to the activation of country code top-level domains CCTLD for Italy.
IT and Malta. In , he co-founded ITnet S. He is the author of several technical reports, conference papers, and journal articles, in addition to being a regular contributor to Computing Reviews. Infonomics: how to monetize, manage, and measure information as an asset for competitive advantage Laney D. Goralski W. Security-aware design for cyber-physical systems: a platform-based approach Lin C.
Cyber-attacks become more threatening as systems are becoming more Security-Aware Design for Cyber-Physical Systems. A Platform-Based Approach. Security-Aware Design for Cyber-Physical Systems: A Platform-Based Approach stages of cyber-physical systems, this book develops a systematic approach.